# todo: clean this mess up from .config import cfg from .data import create_train_val_dataloader from .emb import qnt from .utils import setup_logging, to_device, trainer, flatten_dict, do_gc import auraloss import json import logging import random import torch import torch.nn.functional as F import traceback from collections import defaultdict from tqdm import tqdm mel_stft_loss = auraloss.freq.MelSTFTLoss(24_000, device="cpu") _logger = logging.getLogger(__name__) def train_feeder(engine, batch): with torch.autocast("cuda", dtype=cfg.trainer.dtype, enabled=cfg.trainer.amp): engine( text_list=batch["text"], proms_list=[prom[:, :engine._cfg.prom_levels] for prom in batch["proms"]], # reduce the input prompt to the target prom level resps_list=batch["resps"], lang_list=batch["lang"], ) losses = engine.gather_attribute("loss") stat = engine.gather_attribute("stats") loss = torch.stack([*losses.values()]).sum() stats = {} stats |= {k: v.item() for k, v in losses.items()} stats |= {k: v.item() for k, v in stat.items()} engine.tokens_processed += sum([ text.shape[0] for text in batch["text"] ]) engine.tokens_processed += sum([ resps.shape[0] for resps in batch["resps"] ]) return loss, stats @torch.inference_mode() def run_eval(engines, eval_name, dl): AR = None NAR = None AR_NAR = None names = [] for name, engine in engines.items(): if name[:6] == "ar+nar": AR_NAR = engine elif name[:2] == "ar": AR = engine elif name[:3] == "nar": NAR = engine else: continue names.append(name) stats = defaultdict(list) stats['loss'] = [] def process( name, batch, resps_list ): for speaker, path, ref, hyp, prom, task in zip(batch["spkr_name"], batch["path"], batch["resps"], resps_list, batch["proms"], batch["task"]): if len(hyp) == 0: continue filename = f'{speaker}_{path.parts[-1]}' if task != "tts": filename = f"{filename}_{task}" # to-do, refine the output dir to be sane-er ref_path = (cfg.log_dir / str(engines.global_step) / "ref" / filename).with_suffix(".wav") hyp_path = (cfg.log_dir / str(engines.global_step) / name / eval_name / filename).with_suffix(".wav") prom_path = (cfg.log_dir / str(engines.global_step) / name / "prom" / filename).with_suffix(".wav") hyp_path.parent.mkdir(parents=True, exist_ok=True) ref_path.parent.mkdir(parents=True, exist_ok=True) prom_path.parent.mkdir(parents=True, exist_ok=True) ref_audio, sr = qnt.decode_to_file(ref, ref_path) hyp_audio, sr = qnt.decode_to_file(hyp, hyp_path) prom_audio, sr = qnt.decode_to_file(prom, prom_path) # pseudo loss calculation since we don't get the logits during eval min_length = min( ref_audio.shape[-1], hyp_audio.shape[-1] ) ref_audio = ref_audio[..., 0:min_length] hyp_audio = hyp_audio[..., 0:min_length] stats['loss'].append(mel_stft_loss(hyp_audio[None, :, :], ref_audio[None, :, :]).item()) processed = 0 while processed < cfg.evaluation.size: batch: dict = to_device(next(iter(dl)), cfg.device) processed += len(batch["text"]) # if we're training both models, provide output for both if AR is not None and NAR is not None: name = "+".join(names) resps_list = AR(text_list=batch["text"], proms_list=batch["proms"], max_steps=cfg.evaluation.steps, sampling_temperature=cfg.evaluation.ar_temperature) resps_list = [ r.unsqueeze(-1) for r in resps_list ] resps_list = NAR(text_list=batch["text"], proms_list=batch["proms"], resps_list=resps_list, sampling_temperature=cfg.evaluation.nar_temperature) process( name, batch, resps_list ) else: for name in engines: model = engines[name] if name.startswith("ar+nar"): resps_list = AR_NAR(text_list=batch["text"], proms_list=batch["proms"], max_steps=cfg.evaluation.steps, sampling_temperature=cfg.evaluation.ar_temperature) resps_list = [ r.unsqueeze(-1) for r in resps_list ] resps_list = AR_NAR(text_list=batch["text"], proms_list=batch["proms"], resps_list=resps_list, sampling_temperature=cfg.evaluation.nar_temperature) elif name.startswith("ar"): resps_list = model( text_list=batch["text"], proms_list=batch["proms"], max_steps=cfg.evaluation.steps, sampling_temperature=cfg.evaluation.ar_temperature, ) resps_list = [r.unsqueeze(-1) for r in resps_list] elif name.startswith("nar"): resps_list = model( text_list=batch["text"], proms_list=batch["proms"], resps_list=[r[..., 0].unsqueeze(-1) for r in batch["resps"]], sampling_temperature=cfg.evaluation.nar_temperature, ) else: raise NotImplementedError(name) process( name, batch, resps_list ) stats = {k: sum(v) / len(v) for k, v in stats.items()} engines_stats = { f'{name}.{eval_name}': stats, "it": engines.global_step, } #engines_stats['epoch'] = iteration * cfg.hyperparameters.gradient_accumulation_steps / len(dl) _logger.info(f"Validation Metrics: {json.dumps(engines_stats)}.") def train(): setup_logging(cfg.log_dir) train_dl, subtrain_dl, val_dl = create_train_val_dataloader() def eval_fn(engines): try: run_eval(engines, "subtrain", subtrain_dl) run_eval(engines, "val", val_dl) except Exception as e: print("Error occurred while performing eval:", str(e)) print(traceback.format_exc()) qnt.unload_model() do_gc() qnt.unload_model() """ if cfg.trainer.load_webui: from .webui import start start(lock=False) """ trainer.train( train_dl=train_dl, train_feeder=train_feeder, eval_fn=eval_fn, ) if __name__ == "__main__": train()