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# Copyright (c) 2020 Mobvoi Inc (Binbin Zhang)
#               2024 Alibaba Inc (authors: Xiang Lyu)
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#   http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

import logging
from contextlib import nullcontext
import os

import torch
import torch.distributed as dist
import tqdm

from cosyvoice.utils.train_utils import update_parameter_and_lr, log_per_step, log_per_save, batch_forward, batch_backward, save_model, cosyvoice_join


class Executor:

    def __init__(self):
        self.step = 0
        self.epoch = 0
        self.rank = int(os.environ.get('RANK', 0))
        self.device = torch.device('cuda:{}'.format(self.rank))

    def train_one_epoc(self, model, optimizer, scheduler, train_data_loader, cv_data_loader, writer, info_dict, group_join):
        ''' Train one epoch
        '''

        lr = optimizer.param_groups[0]['lr']
        logging.info('Epoch {} TRAIN info lr {} rank {}'.format(self.epoch, lr, self.rank))
        logging.info('using accumulate grad, new batch size is {} times'
                     ' larger than before'.format(info_dict['accum_grad']))
        # A context manager to be used in conjunction with an instance of
        # torch.nn.parallel.DistributedDataParallel to be able to train
        # with uneven inputs across participating processes.
        model.train()
        model_context = model.join if info_dict['train_engine'] == 'torch_ddp' else nullcontext
        with model_context():
            for batch_idx, batch_dict in tqdm.tqdm(enumerate(train_data_loader)):
                # print("======== forword ========")
                info_dict["tag"] = "TRAIN"
                info_dict["step"] = self.step
                info_dict["epoch"] = self.epoch
                info_dict["batch_idx"] = batch_idx
                if cosyvoice_join(group_join, info_dict):
                    break
                # import pdb
                # pdb.set_trace()
                # Disable gradient synchronizations across DDP processes.
                # Within this context, gradients will be accumulated on module
                # variables, which will later be synchronized.
                if info_dict['train_engine'] == 'torch_ddp' and (batch_idx + 1) % info_dict["accum_grad"] != 0:
                    context = model.no_sync
                # Used for single gpu training and DDP gradient synchronization
                # processes.
                else:
                    context = nullcontext

                new_batch_dict={
                    # "utts":batch_dict["utts"],
                    "speech_token":batch_dict["speech_token"],
                    "speech_token_len":batch_dict["speech_token_len"],
                    "speech_feat":batch_dict["speech_feat"],
                    "speech_feat_len":batch_dict["speech_feat_len"],
                    "embedding":batch_dict["embedding"],
                    # "embedding":torch.zeros((batch_dict["speech_feat"].size(0),192),device=batch_dict["speech_feat"].device)
                }

                with context():
                    info_dict = batch_forward(model, new_batch_dict, info_dict)
                    info_dict = batch_backward(model, info_dict)

                info_dict = update_parameter_and_lr(model, optimizer, scheduler, info_dict)
                log_per_step(writer, info_dict)
                # NOTE specify save_per_step in cosyvoice.yaml if you want to enable step save
                if info_dict['save_per_step'] > 0 and (self.step + 1) % info_dict['save_per_step'] == 0 and (batch_idx + 1) % info_dict["accum_grad"] == 0:
                    dist.barrier()
                    # try:
                    #     dist.barrier()
                    # except RuntimeError as e:
                    #     logging.info('except RuntimeError as e: {}'.format(e))
                    self.cv(model, cv_data_loader, writer, info_dict, on_batch_end=False)
                    model.train()
                if (batch_idx + 1) % info_dict["accum_grad"] == 0:
                    self.step += 1
        dist.barrier()
        # try:
        #     dist.barrier()
        # except RuntimeError as e:
        #     logging.info('except RuntimeError as e: {}'.format(e))
        self.cv(model, cv_data_loader, writer, info_dict, on_batch_end=True)

    @torch.inference_mode()
    def cv(self, model, cv_data_loader, writer, info_dict, on_batch_end=True):
        ''' Cross validation on
        '''
        logging.info('Epoch {} Step {} on_batch_end {} CV rank {}'.format(self.epoch, self.step + 1, on_batch_end, self.rank))
        model.eval()
        total_num_utts, total_loss_dict = 0, {}  # avoid division by 0
        for batch_idx, batch_dict in enumerate(cv_data_loader):
            info_dict["tag"] = "CV"
            info_dict["step"] = self.step
            info_dict["epoch"] = self.epoch
            info_dict["batch_idx"] = batch_idx

            # num_utts = len(batch_dict["utts"])
            num_utts=batch_dict["speech_token"].size(0)
            total_num_utts += num_utts

            info_dict = batch_forward(model, batch_dict, info_dict)

            for k, v in info_dict['loss_dict'].items():
                if k not in total_loss_dict:
                    total_loss_dict[k] = []
                total_loss_dict[k].append(v.item() * num_utts)
            log_per_step(None, info_dict)
        for k, v in total_loss_dict.items():
            total_loss_dict[k] = sum(v) / total_num_utts
        info_dict['loss_dict'] = total_loss_dict
        log_per_save(writer, info_dict)
        model_name = 'epoch_{}_whole'.format(self.epoch) if on_batch_end else 'epoch_{}_step_{}'.format(self.epoch, self.step + 1)
        save_model(model, model_name, info_dict)