mmedit.engine.hooks.iter_time_hook 源代码

# Copyright (c) OpenMMLab. All rights reserved.
import time
from typing import Optional, Sequence, Union

from mmengine.hooks import IterTimerHook
from mmengine.registry import HOOKS
from mmengine.structures import BaseDataElement

[文档]DATA_BATCH = Optional[Sequence[dict]]
[文档]class GenIterTimerHook(IterTimerHook): """GenIterTimerHooks inherits from :class:`mmengine.hooks.IterTimerHook` and overwrites :meth:`self._after_iter`. This hooks should be used along with :class:`mmedit.engine.runner.GenValLoop` and :class:`mmedit.engine.runner.GenTestLoop`. """
[文档] def _after_iter(self, runner, batch_idx: int, data_batch: DATA_BATCH = None, outputs: Optional[Union[dict, Sequence[BaseDataElement]]] = None, mode: str = 'train') -> None: """Calculating time for an iteration and updating "time" ``HistoryBuffer`` of ``runner.message_hub``. If `mode` is 'train', we take `runner.max_iters` as the total iterations and calculate the rest time. If `mode` in `val` or `test`, we use `runner.val_loop.total_length` or `runner.test_loop.total_length` as total number of iterations. If you want to know how `total_length` is calculated, please refers to :meth:`` and :meth:``. Args: runner (Runner): The runner of the training validation and testing process. batch_idx (int): The index of the current batch in the loop. data_batch (Sequence[dict], optional): Data from dataloader. Defaults to None. outputs (dict or sequence, optional): Outputs from model. Defaults to None. mode (str): Current mode of runner. Defaults to 'train'. """ # Update iteration time in `runner.message_hub`. message_hub = runner.message_hub message_hub.update_scalar(f'{mode}/time', time.time() - self.t) self.t = time.time() window_size = runner.log_processor.window_size # Calculate eta every `window_size` iterations. Since test and val # loop will not update runner.iter, use `every_n_innter_iters`to check # the interval. if self.every_n_inner_iters(batch_idx, window_size): iter_time = message_hub.get_scalar(f'{mode}/time').mean( window_size) if mode == 'train': self.time_sec_tot += iter_time * window_size # Calculate average iterative time. time_sec_avg = self.time_sec_tot / ( runner.iter - self.start_iter + 1) # Calculate eta. eta_sec = time_sec_avg * (runner.max_iters - runner.iter - 1) runner.message_hub.update_info('eta', eta_sec) else: if mode == 'val': total_length = runner.val_loop.total_length else: total_length = runner.test_loop.total_length eta_sec = iter_time * (total_length - batch_idx - 1) runner.message_hub.update_info('eta', eta_sec)
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