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from dataclasses import dataclass, field
from typing import Dict, List, Tuple, Union
import torch
import torch.nn as nn
import torchaudio
from coqpit import Coqpit
from torch.nn import functional as F
from torch.utils.data import DataLoader
from trainer.torch import DistributedSampler
from trainer.trainer_utils import get_optimizer, get_scheduler
from TTS.tts.configs.xtts_config import XttsConfig
from TTS.tts.datasets.dataset import TTSDataset
from TTS.tts.layers.tortoise.arch_utils import TorchMelSpectrogram
from TTS.tts.layers.xtts.dvae import DiscreteVAE
from TTS.tts.layers.xtts.tokenizer import VoiceBpeTokenizer
from TTS.tts.layers.xtts.trainer.dataset import XTTSDataset
from TTS.tts.models.base_tts import BaseTTS
from TTS.tts.models.xtts import Xtts, XttsArgs, XttsAudioConfig
from TTS.utils.io import load_fsspec
@dataclass
class GPTTrainerConfig(XttsConfig):
lr: float = 5e-06
training_seed: int = 1
optimizer_wd_only_on_weights: bool = False
weighted_loss_attrs: dict = field(default_factory=lambda: {})
weighted_loss_multipliers: dict = field(default_factory=lambda: {})
test_sentences: List[dict] = field(default_factory=lambda: [])
@dataclass
class XttsAudioConfig(XttsAudioConfig):
dvae_sample_rate: int = 22050
@dataclass
class GPTArgs(XttsArgs):
min_conditioning_length: int = 66150
max_conditioning_length: int = 132300
gpt_loss_text_ce_weight: float = 0.01
gpt_loss_mel_ce_weight: float = 1.0
gpt_num_audio_tokens: int = 8194
debug_loading_failures: bool = False
max_wav_length: int = 255995 # ~11.6 seconds
max_text_length: int = 200
tokenizer_file: str = ""
mel_norm_file: str = "https://coqui.gateway.scarf.sh/v0.14.0_models/mel_norms.pth"
dvae_checkpoint: str = ""
xtts_checkpoint: str = ""
gpt_checkpoint: str = "" # if defined it will replace the gpt weights on xtts model
vocoder: str = "" # overide vocoder key on the config to avoid json write issues
def callback_clearml_load_save(operation_type, model_info):
# return None means skip the file upload/log, returning model_info will continue with the log/upload
# you can also change the upload destination file name model_info.upload_filename or check the local file size with Path(model_info.local_model_path).stat().st_size
assert operation_type in ("load", "save")
# print(operation_type, model_info.__dict__)
if "similarities.pth" in model_info.__dict__["local_model_path"]:
return None
return model_info
class GPTTrainer(BaseTTS):
def __init__(self, config: Coqpit):
"""
Tortoise GPT training class
"""
super().__init__(config, ap=None, tokenizer=None)
self.config = config
# init XTTS model
self.xtts = Xtts(self.config)
# create the tokenizer with the target vocabulary
self.xtts.tokenizer = VoiceBpeTokenizer(self.args.tokenizer_file)
# init gpt encoder and hifigan decoder
self.xtts.init_models()
if self.args.xtts_checkpoint:
self.load_checkpoint(self.config, self.args.xtts_checkpoint, eval=False, strict=False)
# set mel stats
if self.args.mel_norm_file:
self.xtts.mel_stats = load_fsspec(self.args.mel_norm_file)
# load GPT if available
if self.args.gpt_checkpoint:
gpt_checkpoint = torch.load(self.args.gpt_checkpoint, map_location=torch.device("cpu"))
# deal with coqui Trainer exported model
if "model" in gpt_checkpoint.keys() and "config" in gpt_checkpoint.keys():
print("Coqui Trainer checkpoint detected! Converting it!")
gpt_checkpoint = gpt_checkpoint["model"]
states_keys = list(gpt_checkpoint.keys())
for key in states_keys:
if "gpt." in key:
new_key = key.replace("gpt.", "")
gpt_checkpoint[new_key] = gpt_checkpoint[key]
del gpt_checkpoint[key]
else:
del gpt_checkpoint[key]
# edit checkpoint if the number of tokens is changed to ensures the better transfer learning possible
if (
"text_embedding.weight" in gpt_checkpoint
and gpt_checkpoint["text_embedding.weight"].shape != self.xtts.gpt.text_embedding.weight.shape
):
num_new_tokens = (
self.xtts.gpt.text_embedding.weight.shape[0] - gpt_checkpoint["text_embedding.weight"].shape[0]
)
print(f" > Loading checkpoint with {num_new_tokens} additional tokens.")
# add new tokens to a linear layer (text_head)
emb_g = gpt_checkpoint["text_embedding.weight"]
new_row = torch.randn(num_new_tokens, emb_g.shape[1])
start_token_row = emb_g[-1, :]
emb_g = torch.cat([emb_g, new_row], axis=0)
emb_g[-1, :] = start_token_row
gpt_checkpoint["text_embedding.weight"] = emb_g
# add new weights to the linear layer (text_head)
text_head_weight = gpt_checkpoint["text_head.weight"]
start_token_row = text_head_weight[-1, :]
new_entry = torch.randn(num_new_tokens, self.xtts.gpt.text_head.weight.shape[1])
text_head_weight = torch.cat([text_head_weight, new_entry], axis=0)
text_head_weight[-1, :] = start_token_row
gpt_checkpoint["text_head.weight"] = text_head_weight
# add new biases to the linear layer (text_head)
text_head_bias = gpt_checkpoint["text_head.bias"]
start_token_row = text_head_bias[-1]
new_bias_entry = torch.zeros(num_new_tokens)
text_head_bias = torch.cat([text_head_bias, new_bias_entry], axis=0)
text_head_bias[-1] = start_token_row
gpt_checkpoint["text_head.bias"] = text_head_bias
self.xtts.gpt.load_state_dict(gpt_checkpoint, strict=True)
print(">> GPT weights restored from:", self.args.gpt_checkpoint)
# Mel spectrogram extractor for conditioning
if self.args.gpt_use_perceiver_resampler:
self.torch_mel_spectrogram_style_encoder = TorchMelSpectrogram(
filter_length=2048,
hop_length=256,
win_length=1024,
normalize=False,
sampling_rate=config.audio.sample_rate,
mel_fmin=0,
mel_fmax=8000,
n_mel_channels=80,
mel_norm_file=self.args.mel_norm_file,
)
else:
self.torch_mel_spectrogram_style_encoder = TorchMelSpectrogram(
filter_length=4096,
hop_length=1024,
win_length=4096,
normalize=False,
sampling_rate=config.audio.sample_rate,
mel_fmin=0,
mel_fmax=8000,
n_mel_channels=80,
mel_norm_file=self.args.mel_norm_file,
)
# Load DVAE
self.dvae = DiscreteVAE(
channels=80,
normalization=None,
positional_dims=1,
num_tokens=self.args.gpt_num_audio_tokens - 2,
codebook_dim=512,
hidden_dim=512,
num_resnet_blocks=3,
kernel_size=3,
num_layers=2,
use_transposed_convs=False,
)
self.dvae.eval()
if self.args.dvae_checkpoint:
dvae_checkpoint = torch.load(self.args.dvae_checkpoint, map_location=torch.device("cpu"))
self.dvae.load_state_dict(dvae_checkpoint, strict=False)
print(">> DVAE weights restored from:", self.args.dvae_checkpoint)
else:
raise RuntimeError(
"You need to specify config.model_args.dvae_checkpoint path to be able to train the GPT decoder!!"
)
# Mel spectrogram extractor for DVAE
self.torch_mel_spectrogram_dvae = TorchMelSpectrogram(
mel_norm_file=self.args.mel_norm_file, sampling_rate=config.audio.dvae_sample_rate
)
@property
def device(self):
return next(self.parameters()).device
def forward(self, text_inputs, text_lengths, audio_codes, wav_lengths, cond_mels, cond_idxs, cond_lens):
"""
Forward pass that uses both text and voice in either text conditioning mode or voice conditioning mode
(actuated by `text_first`).
text_inputs: long tensor, (b,t)
text_lengths: long tensor, (b,)
mel_inputs: long tensor, (b,m)
wav_lengths: long tensor, (b,)
cond_mels: MEL float tensor, (b, num_samples, 80,t_m)
cond_idxs: cond start and end indexs, (b, 2)
cond_lens: long tensor, (b,)
"""
losses = self.xtts.gpt(
text_inputs,
text_lengths,
audio_codes,
wav_lengths,
cond_mels=cond_mels,
cond_idxs=cond_idxs,
cond_lens=cond_lens,
)
return losses
@torch.no_grad()
def test_run(self, assets) -> Tuple[Dict, Dict]: # pylint: disable=W0613
if self.config.test_sentences:
# init gpt for inference mode
self.xtts.gpt.init_gpt_for_inference(kv_cache=self.args.kv_cache, use_deepspeed=False)
self.xtts.gpt.eval()
test_audios = {}
print(" | > Synthesizing test sentences.")
for idx, s_info in enumerate(self.config.test_sentences):
wav = self.xtts.synthesize(
s_info["text"],
self.config,
s_info["speaker_wav"],
s_info["language"],
gpt_cond_len=3,
)["wav"]
test_audios["{}-audio".format(idx)] = wav
# delete inference layers
del self.xtts.gpt.gpt_inference
del self.xtts.gpt.gpt.wte
return {"audios": test_audios}
def test_log(
self, outputs: dict, logger: "Logger", assets: dict, steps: int # pylint: disable=unused-argument
) -> None:
logger.test_audios(steps, outputs["audios"], self.args.output_sample_rate)
def format_batch(self, batch: Dict) -> Dict:
return batch
@torch.no_grad() # torch no grad to avoid gradients from the pre-processing and DVAE codes extraction
def format_batch_on_device(self, batch):
"""Compute spectrograms on the device."""
batch["text_lengths"] = batch["text_lengths"]
batch["wav_lengths"] = batch["wav_lengths"]
batch["text_inputs"] = batch["padded_text"]
batch["cond_idxs"] = batch["cond_idxs"]
# compute conditioning mel specs
# transform waves from torch.Size([B, num_cond_samples, 1, T] to torch.Size([B * num_cond_samples, 1, T] because if is faster than iterate the tensor
B, num_cond_samples, C, T = batch["conditioning"].size()
conditioning_reshaped = batch["conditioning"].view(B * num_cond_samples, C, T)
paired_conditioning_mel = self.torch_mel_spectrogram_style_encoder(conditioning_reshaped)
# transform torch.Size([B * num_cond_samples, n_mel, T_mel]) in torch.Size([B, num_cond_samples, n_mel, T_mel])
n_mel = self.torch_mel_spectrogram_style_encoder.n_mel_channels # paired_conditioning_mel.size(1)
T_mel = paired_conditioning_mel.size(2)
paired_conditioning_mel = paired_conditioning_mel.view(B, num_cond_samples, n_mel, T_mel)
# get the conditioning embeddings
batch["cond_mels"] = paired_conditioning_mel
# compute codes using DVAE
if self.config.audio.sample_rate != self.config.audio.dvae_sample_rate:
dvae_wav = torchaudio.functional.resample(
batch["wav"],
orig_freq=self.config.audio.sample_rate,
new_freq=self.config.audio.dvae_sample_rate,
lowpass_filter_width=64,
rolloff=0.9475937167399596,
resampling_method="kaiser_window",
beta=14.769656459379492,
)
else:
dvae_wav = batch["wav"]
dvae_mel_spec = self.torch_mel_spectrogram_dvae(dvae_wav)
codes = self.dvae.get_codebook_indices(dvae_mel_spec)
batch["audio_codes"] = codes
# delete useless batch tensors
del batch["padded_text"]
del batch["wav"]
del batch["conditioning"]
return batch
def train_step(self, batch, criterion):
loss_dict = {}
cond_mels = batch["cond_mels"]
text_inputs = batch["text_inputs"]
text_lengths = batch["text_lengths"]
audio_codes = batch["audio_codes"]
wav_lengths = batch["wav_lengths"]
cond_idxs = batch["cond_idxs"]
cond_lens = batch["cond_lens"]
loss_text, loss_mel, _ = self.forward(
text_inputs, text_lengths, audio_codes, wav_lengths, cond_mels, cond_idxs, cond_lens
)
loss_dict["loss_text_ce"] = loss_text * self.args.gpt_loss_text_ce_weight
loss_dict["loss_mel_ce"] = loss_mel * self.args.gpt_loss_mel_ce_weight
loss_dict["loss"] = loss_dict["loss_text_ce"] + loss_dict["loss_mel_ce"]
return {"model_outputs": None}, loss_dict
def eval_step(self, batch, criterion):
# ignore masking for more consistent evaluation
batch["cond_idxs"] = None
return self.train_step(batch, criterion)
def on_train_epoch_start(self, trainer):
trainer.model.eval() # the whole model to eval
# put gpt model in training mode
trainer.model.xtts.gpt.train()
def on_init_end(self, trainer): # pylint: disable=W0613
# ignore similarities.pth on clearml save/upload
if self.config.dashboard_logger.lower() == "clearml":
from clearml.binding.frameworks import WeightsFileHandler
WeightsFileHandler.add_pre_callback(callback_clearml_load_save)
@torch.no_grad()
def inference(
self,
x,
aux_input=None,
): # pylint: disable=dangerous-default-value
return None
@staticmethod
def get_criterion():
return None
def get_sampler(self, dataset: TTSDataset, num_gpus=1):
# sampler for DDP
batch_sampler = DistributedSampler(dataset) if num_gpus > 1 else None
return batch_sampler
def get_data_loader(
self,
config: Coqpit,
assets: Dict,
is_eval: bool,
samples: Union[List[Dict], List[List]],
verbose: bool,
num_gpus: int,
rank: int = None,
) -> "DataLoader": # pylint: disable=W0613
if is_eval and not config.run_eval:
loader = None
else:
# init dataloader
dataset = XTTSDataset(self.config, samples, self.xtts.tokenizer, config.audio.sample_rate, is_eval)
# wait all the DDP process to be ready
if num_gpus > 1:
torch.distributed.barrier()
# sort input sequences from short to long
# dataset.preprocess_samples()
# get samplers
sampler = self.get_sampler(dataset, num_gpus)
# ignore sampler when is eval because if we changed the sampler parameter we will not be able to compare previous runs
if sampler is None or is_eval:
loader = DataLoader(
dataset,
batch_size=config.eval_batch_size if is_eval else config.batch_size,
shuffle=False,
drop_last=False,
collate_fn=dataset.collate_fn,
num_workers=config.num_eval_loader_workers if is_eval else config.num_loader_workers,
pin_memory=False,
)
else:
loader = DataLoader(
dataset,
batch_sampler=sampler,
collate_fn=dataset.collate_fn,
num_workers=config.num_eval_loader_workers if is_eval else config.num_loader_workers,
pin_memory=False,
)
return loader
def get_optimizer(self) -> List:
"""Initiate and return the optimizer based on the config parameters."""
# ToDo: deal with multi GPU training
if self.config.optimizer_wd_only_on_weights:
# parameters to only GPT model
net = self.xtts.gpt
# normalizations
norm_modules = (
nn.BatchNorm2d,
nn.InstanceNorm2d,
nn.BatchNorm1d,
nn.InstanceNorm1d,
nn.BatchNorm3d,
nn.InstanceNorm3d,
nn.GroupNorm,
nn.LayerNorm,
)
# nn.Embedding
emb_modules = (nn.Embedding, nn.EmbeddingBag)
param_names_notweights = set()
all_param_names = set()
param_map = {}
for mn, m in net.named_modules():
for k, v in m.named_parameters():
v.is_bias = k.endswith(".bias")
v.is_weight = k.endswith(".weight")
v.is_norm = isinstance(m, norm_modules)
v.is_emb = isinstance(m, emb_modules)
fpn = "%s.%s" % (mn, k) if mn else k # full param name
all_param_names.add(fpn)
param_map[fpn] = v
if v.is_bias or v.is_norm or v.is_emb:
param_names_notweights.add(fpn)
params_names_notweights = sorted(list(param_names_notweights))
params_notweights = [param_map[k] for k in params_names_notweights]
params_names_weights = sorted(list(all_param_names ^ param_names_notweights))
params_weights = [param_map[k] for k in params_names_weights]
groups = [
{"params": params_weights, "weight_decay": self.config.optimizer_params["weight_decay"]},
{"params": params_notweights, "weight_decay": 0},
]
# torch.optim.AdamW
opt = get_optimizer(
self.config.optimizer,
self.config.optimizer_params,
self.config.lr,
parameters=groups,
)
opt._group_names = [params_names_weights, params_names_notweights]
return opt
return get_optimizer(
self.config.optimizer,
self.config.optimizer_params,
self.config.lr,
# optimize only for the GPT model
parameters=self.xtts.gpt.parameters(),
)
def get_scheduler(self, optimizer) -> List:
"""Set the scheduler for the optimizer.
Args:
optimizer: `torch.optim.Optimizer`.
"""
return get_scheduler(self.config.lr_scheduler, self.config.lr_scheduler_params, optimizer)
def load_checkpoint(
self,
config,
checkpoint_path,
eval=False,
strict=True,
cache_storage="/tmp/tts_cache",
target_protocol="s3",
target_options={"anon": True},
): # pylint: disable=unused-argument, disable=W0201, disable=W0102, redefined-builtin
"""Load the model checkpoint and setup for training or inference"""
state = self.xtts.get_compatible_checkpoint_state_dict(checkpoint_path)
# load the model weights
self.xtts.load_state_dict(state, strict=strict)
if eval:
self.xtts.gpt.init_gpt_for_inference(kv_cache=self.args.kv_cache, use_deepspeed=False)
self.eval()
assert not self.training
@staticmethod
def init_from_config(config: "GPTTrainerConfig", samples: Union[List[List], List[Dict]] = None):
"""Initiate model from config
Args:
config (GPTTrainerConfig): Model config.
samples (Union[List[List], List[Dict]]): Training samples to parse speaker ids for training.
Defaults to None.
"""
return GPTTrainer(config)
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