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# Copyright (c) Meta Platforms, Inc. and affiliates. | |
# All rights reserved. | |
# | |
# This source code is licensed under the license found in the | |
# LICENSE file in the root directory of this source tree. | |
""" | |
All the functions to build the relevant solvers and used objects | |
from the Hydra config. | |
""" | |
from enum import Enum | |
import logging | |
import typing as tp | |
import dora | |
import flashy | |
import omegaconf | |
import torch | |
from torch import nn | |
from torch.optim import Optimizer | |
# LRScheduler was renamed in some torch versions | |
try: | |
from torch.optim.lr_scheduler import LRScheduler # type: ignore | |
except ImportError: | |
from torch.optim.lr_scheduler import _LRScheduler as LRScheduler | |
from .base import StandardSolver | |
from .. import adversarial, data, losses, metrics, optim | |
from ..utils.utils import dict_from_config, get_loader | |
logger = logging.getLogger(__name__) | |
class DatasetType(Enum): | |
AUDIO = "audio" | |
MUSIC = "music" | |
SOUND = "sound" | |
def get_solver(cfg: omegaconf.DictConfig) -> StandardSolver: | |
"""Instantiate solver from config.""" | |
from .audiogen import AudioGenSolver | |
from .compression import CompressionSolver | |
from .musicgen import MusicGenSolver | |
from .diffusion import DiffusionSolver | |
klass = { | |
'compression': CompressionSolver, | |
'musicgen': MusicGenSolver, | |
'audiogen': AudioGenSolver, | |
'lm': MusicGenSolver, # backward compatibility | |
'diffusion': DiffusionSolver, | |
'sound_lm': AudioGenSolver, # backward compatibility | |
}[cfg.solver] | |
return klass(cfg) # type: ignore | |
def get_optim_parameter_groups(model: nn.Module): | |
"""Create parameter groups for the model using the appropriate method | |
if defined for each modules, to create the different groups. | |
Args: | |
model (nn.Module): torch model | |
Returns: | |
List of parameter groups | |
""" | |
seen_params: tp.Set[nn.parameter.Parameter] = set() | |
other_params = [] | |
groups = [] | |
for name, module in model.named_modules(): | |
if hasattr(module, 'make_optim_group'): | |
group = module.make_optim_group() | |
params = set(group['params']) | |
assert params.isdisjoint(seen_params) | |
seen_params |= set(params) | |
groups.append(group) | |
for param in model.parameters(): | |
if param not in seen_params: | |
other_params.append(param) | |
groups.insert(0, {'params': other_params}) | |
parameters = groups | |
return parameters | |
def get_optimizer(params: tp.Union[nn.Module, tp.Iterable[torch.Tensor]], cfg: omegaconf.DictConfig) -> Optimizer: | |
"""Build torch optimizer from config and set of parameters. | |
Supported optimizers: Adam, AdamW | |
Args: | |
params (nn.Module or iterable of torch.Tensor): Parameters to optimize. | |
cfg (DictConfig): Optimization-related configuration. | |
Returns: | |
torch.optim.Optimizer. | |
""" | |
if 'optimizer' not in cfg: | |
if getattr(cfg, 'optim', None) is not None: | |
raise KeyError("Optimizer not found in config. Try instantiating optimizer from cfg.optim?") | |
else: | |
raise KeyError("Optimizer not found in config.") | |
parameters = get_optim_parameter_groups(params) if isinstance(params, nn.Module) else params | |
optimizer: torch.optim.Optimizer | |
if cfg.optimizer == 'adam': | |
optimizer = torch.optim.Adam(parameters, lr=cfg.lr, **cfg.adam) | |
elif cfg.optimizer == 'adamw': | |
optimizer = torch.optim.AdamW(parameters, lr=cfg.lr, **cfg.adam) | |
elif cfg.optimizer == 'dadam': | |
optimizer = optim.DAdaptAdam(parameters, lr=cfg.lr, **cfg.adam) | |
else: | |
raise ValueError(f"Unsupported LR Scheduler: {cfg.lr_scheduler}") | |
return optimizer | |
def get_lr_scheduler(optimizer: torch.optim.Optimizer, | |
cfg: omegaconf.DictConfig, | |
total_updates: int) -> tp.Optional[LRScheduler]: | |
"""Build torch learning rate scheduler from config and associated optimizer. | |
Supported learning rate schedulers: ExponentialLRScheduler, PlateauLRScheduler | |
Args: | |
optimizer (torch.optim.Optimizer): Optimizer. | |
cfg (DictConfig): Schedule-related configuration. | |
total_updates (int): Total number of updates. | |
Returns: | |
torch.optim.Optimizer. | |
""" | |
if 'lr_scheduler' not in cfg: | |
raise KeyError("LR Scheduler not found in config") | |
lr_sched: tp.Optional[LRScheduler] = None | |
if cfg.lr_scheduler == 'step': | |
lr_sched = torch.optim.lr_scheduler.StepLR(optimizer, **cfg.step) | |
elif cfg.lr_scheduler == 'exponential': | |
lr_sched = torch.optim.lr_scheduler.ExponentialLR(optimizer, gamma=cfg.exponential) | |
elif cfg.lr_scheduler == 'cosine': | |
kwargs = dict_from_config(cfg.cosine) | |
warmup_steps = kwargs.pop('warmup') | |
lr_sched = optim.CosineLRScheduler( | |
optimizer, warmup_steps=warmup_steps, total_steps=total_updates, **kwargs) | |
elif cfg.lr_scheduler == 'polynomial_decay': | |
kwargs = dict_from_config(cfg.polynomial_decay) | |
warmup_steps = kwargs.pop('warmup') | |
lr_sched = optim.PolynomialDecayLRScheduler( | |
optimizer, warmup_steps=warmup_steps, total_steps=total_updates, **kwargs) | |
elif cfg.lr_scheduler == 'inverse_sqrt': | |
kwargs = dict_from_config(cfg.inverse_sqrt) | |
warmup_steps = kwargs.pop('warmup') | |
lr_sched = optim.InverseSquareRootLRScheduler(optimizer, warmup_steps=warmup_steps, **kwargs) | |
elif cfg.lr_scheduler == 'linear_warmup': | |
kwargs = dict_from_config(cfg.linear_warmup) | |
warmup_steps = kwargs.pop('warmup') | |
lr_sched = optim.LinearWarmupLRScheduler(optimizer, warmup_steps=warmup_steps, **kwargs) | |
elif cfg.lr_scheduler is not None: | |
raise ValueError(f"Unsupported LR Scheduler: {cfg.lr_scheduler}") | |
return lr_sched | |
def get_ema(module_dict: nn.ModuleDict, cfg: omegaconf.DictConfig) -> tp.Optional[optim.ModuleDictEMA]: | |
"""Initialize Exponential Moving Average. | |
Args: | |
module_dict (nn.ModuleDict): ModuleDict for which to compute the EMA. | |
cfg (omegaconf.DictConfig): Optim EMA configuration. | |
Returns: | |
optim.ModuleDictEMA: EMA version of the ModuleDict. | |
""" | |
kw: tp.Dict[str, tp.Any] = dict(cfg) | |
use = kw.pop('use', False) | |
decay = kw.pop('decay', None) | |
device = kw.pop('device', None) | |
if not use: | |
return None | |
if len(module_dict) == 0: | |
raise ValueError("Trying to build EMA but an empty module_dict source is provided!") | |
ema_module = optim.ModuleDictEMA(module_dict, decay=decay, device=device) | |
return ema_module | |
def get_loss(loss_name: str, cfg: omegaconf.DictConfig): | |
"""Instantiate loss from configuration.""" | |
klass = { | |
'l1': torch.nn.L1Loss, | |
'l2': torch.nn.MSELoss, | |
'mel': losses.MelSpectrogramL1Loss, | |
'mrstft': losses.MRSTFTLoss, | |
'msspec': losses.MultiScaleMelSpectrogramLoss, | |
'sisnr': losses.SISNR, | |
}[loss_name] | |
kwargs = dict(getattr(cfg, loss_name)) | |
return klass(**kwargs) | |
def get_balancer(loss_weights: tp.Dict[str, float], cfg: omegaconf.DictConfig) -> losses.Balancer: | |
"""Instantiate loss balancer from configuration for the provided weights.""" | |
kwargs: tp.Dict[str, tp.Any] = dict_from_config(cfg) | |
return losses.Balancer(loss_weights, **kwargs) | |
def get_adversary(name: str, cfg: omegaconf.DictConfig) -> nn.Module: | |
"""Initialize adversary from config.""" | |
klass = { | |
'msd': adversarial.MultiScaleDiscriminator, | |
'mpd': adversarial.MultiPeriodDiscriminator, | |
'msstftd': adversarial.MultiScaleSTFTDiscriminator, | |
}[name] | |
adv_cfg: tp.Dict[str, tp.Any] = dict(getattr(cfg, name)) | |
return klass(**adv_cfg) | |
def get_adversarial_losses(cfg) -> nn.ModuleDict: | |
"""Initialize dict of adversarial losses from config.""" | |
device = cfg.device | |
adv_cfg = getattr(cfg, 'adversarial') | |
adversaries = adv_cfg.get('adversaries', []) | |
adv_loss_name = adv_cfg['adv_loss'] | |
feat_loss_name = adv_cfg.get('feat_loss') | |
normalize = adv_cfg.get('normalize', True) | |
feat_loss: tp.Optional[adversarial.FeatureMatchingLoss] = None | |
if feat_loss_name: | |
assert feat_loss_name in ['l1', 'l2'], f"Feature loss only support L1 or L2 but {feat_loss_name} found." | |
loss = get_loss(feat_loss_name, cfg) | |
feat_loss = adversarial.FeatureMatchingLoss(loss, normalize) | |
loss = adversarial.get_adv_criterion(adv_loss_name) | |
loss_real = adversarial.get_real_criterion(adv_loss_name) | |
loss_fake = adversarial.get_fake_criterion(adv_loss_name) | |
adv_losses = nn.ModuleDict() | |
for adv_name in adversaries: | |
adversary = get_adversary(adv_name, cfg).to(device) | |
optimizer = get_optimizer(adversary.parameters(), cfg.optim) | |
adv_loss = adversarial.AdversarialLoss( | |
adversary, | |
optimizer, | |
loss=loss, | |
loss_real=loss_real, | |
loss_fake=loss_fake, | |
loss_feat=feat_loss, | |
normalize=normalize | |
) | |
adv_losses[adv_name] = adv_loss | |
return adv_losses | |
def get_visqol(cfg: omegaconf.DictConfig) -> metrics.ViSQOL: | |
"""Instantiate ViSQOL metric from config.""" | |
kwargs = dict_from_config(cfg) | |
return metrics.ViSQOL(**kwargs) | |
def get_fad(cfg: omegaconf.DictConfig) -> metrics.FrechetAudioDistanceMetric: | |
"""Instantiate Frechet Audio Distance metric from config.""" | |
kwargs = dict_from_config(cfg.tf) | |
xp = dora.get_xp() | |
kwargs['log_folder'] = xp.folder | |
return metrics.FrechetAudioDistanceMetric(**kwargs) | |
def get_kldiv(cfg: omegaconf.DictConfig) -> metrics.KLDivergenceMetric: | |
"""Instantiate KL-Divergence metric from config.""" | |
kld_metrics = { | |
'passt': metrics.PasstKLDivergenceMetric, | |
} | |
klass = kld_metrics[cfg.model] | |
kwargs = dict_from_config(cfg.get(cfg.model)) | |
return klass(**kwargs) | |
def get_text_consistency(cfg: omegaconf.DictConfig) -> metrics.TextConsistencyMetric: | |
"""Instantiate Text Consistency metric from config.""" | |
text_consistency_metrics = { | |
'clap': metrics.CLAPTextConsistencyMetric | |
} | |
klass = text_consistency_metrics[cfg.model] | |
kwargs = dict_from_config(cfg.get(cfg.model)) | |
return klass(**kwargs) | |
def get_chroma_cosine_similarity(cfg: omegaconf.DictConfig) -> metrics.ChromaCosineSimilarityMetric: | |
"""Instantiate Chroma Cosine Similarity metric from config.""" | |
assert cfg.model == 'chroma_base', "Only support 'chroma_base' method for chroma cosine similarity metric" | |
kwargs = dict_from_config(cfg.get(cfg.model)) | |
return metrics.ChromaCosineSimilarityMetric(**kwargs) | |
def get_audio_datasets(cfg: omegaconf.DictConfig, | |
dataset_type: DatasetType = DatasetType.AUDIO) -> tp.Dict[str, torch.utils.data.DataLoader]: | |
"""Build AudioDataset from configuration. | |
Args: | |
cfg (omegaconf.DictConfig): Configuration. | |
dataset_type: The type of dataset to create. | |
Returns: | |
dict[str, torch.utils.data.DataLoader]: Map of dataloader for each data split. | |
""" | |
dataloaders: dict = {} | |
sample_rate = cfg.sample_rate | |
channels = cfg.channels | |
seed = cfg.seed | |
max_sample_rate = cfg.datasource.max_sample_rate | |
max_channels = cfg.datasource.max_channels | |
assert cfg.dataset is not None, "Could not find dataset definition in config" | |
dataset_cfg = dict_from_config(cfg.dataset) | |
splits_cfg: dict = {} | |
splits_cfg['train'] = dataset_cfg.pop('train') | |
splits_cfg['valid'] = dataset_cfg.pop('valid') | |
splits_cfg['evaluate'] = dataset_cfg.pop('evaluate') | |
splits_cfg['generate'] = dataset_cfg.pop('generate') | |
execute_only_stage = cfg.get('execute_only', None) | |
for split, path in cfg.datasource.items(): | |
if not isinstance(path, str): | |
continue # skipping this as not a path | |
if execute_only_stage is not None and split != execute_only_stage: | |
continue | |
logger.info(f"Loading audio data split {split}: {str(path)}") | |
assert ( | |
cfg.sample_rate <= max_sample_rate | |
), f"Expecting a max sample rate of {max_sample_rate} for datasource but {sample_rate} found." | |
assert ( | |
cfg.channels <= max_channels | |
), f"Expecting a max number of channels of {max_channels} for datasource but {channels} found." | |
split_cfg = splits_cfg[split] | |
split_kwargs = {k: v for k, v in split_cfg.items()} | |
kwargs = {**dataset_cfg, **split_kwargs} # split kwargs overrides default dataset_cfg | |
kwargs['sample_rate'] = sample_rate | |
kwargs['channels'] = channels | |
if kwargs.get('permutation_on_files') and cfg.optim.updates_per_epoch: | |
kwargs['num_samples'] = ( | |
flashy.distrib.world_size() * cfg.dataset.batch_size * cfg.optim.updates_per_epoch) | |
num_samples = kwargs['num_samples'] | |
shuffle = kwargs['shuffle'] | |
return_info = kwargs.pop('return_info') | |
batch_size = kwargs.pop('batch_size', None) | |
num_workers = kwargs.pop('num_workers') | |
if dataset_type == DatasetType.MUSIC: | |
dataset = data.music_dataset.MusicDataset.from_meta(path, **kwargs) | |
elif dataset_type == DatasetType.SOUND: | |
dataset = data.sound_dataset.SoundDataset.from_meta(path, **kwargs) | |
elif dataset_type == DatasetType.AUDIO: | |
dataset = data.info_audio_dataset.InfoAudioDataset.from_meta(path, return_info=return_info, **kwargs) | |
else: | |
raise ValueError(f"Dataset type is unsupported: {dataset_type}") | |
loader = get_loader( | |
dataset, | |
num_samples, | |
batch_size=batch_size, | |
num_workers=num_workers, | |
seed=seed, | |
collate_fn=dataset.collater if return_info else None, | |
shuffle=shuffle, | |
) | |
dataloaders[split] = loader | |
return dataloaders | |