HuggingFace_transformer/src/transformers/trainer_callback.py

# coding=utf-8
# Copyright 2020-present the HuggingFace Inc. team.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
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#     http://www.apache.org/licenses/LICENSE-2.0
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# distributed under the License is distributed on an "AS IS" BASIS,
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"""
Callbacks to use with the Trainer class and customize the training loop.
"""

import dataclasses
import json
from dataclasses import dataclass
from typing import Dict, List, Optional

from tqdm.auto import tqdm

from .trainer_utils import EvaluationStrategy
from .training_args import TrainingArguments
from .utils import logging


logger = logging.get_logger(__name__)


@dataclass
class TrainerState:
    """
    A class containing the :class:`~transformers.Trainer` inner state that will be saved along the model and optimizer
    when checkpointing and passed to the :class:`~transformers.TrainerCallback`.

    .. note::

        In all this class, one step is to be understood as one update step. When using gradient accumulation, one
        update step may require several forward and backward passes: if you use :obj:`gradient_accumulation_steps=n`,
        then one update step requires going throuch `n` batches.

    Args:
        epoch (:obj:`float`, `optional`):
            Only set during training, will represent the epoch the training is at (the decimal part being the
            percentage of the current epoch completed).
        global_step (:obj:`int`, `optional`, defaults to 0):
            During training, represents the number of update steps completed.
        max_steps (:obj:`int`, `optional`, defaults to 0):
            The number of update steps to do during the current training.
        total_flos (:obj:`int`, `optional`, defaults to 0):
            The total number of floating operations done by the model since the beginning of training.
        log_history (:obj:`List[Dict[str, float]]`, `optional`):
            The list of logs done since the beginning of training.
        best_metric (:obj:`float`, `optional`):
            When tracking the best model, the value of the best metric encountered so far.
        best_model_checkpoint (:obj:`str`, `optional`):
            When tracking the best model, the value of the name of the checkpoint for the best model encountered so
            far.
        is_local_process_zero (:obj:`bool`, `optional`, defaults to :obj:`True`):
            Whether or not this process is the local (e.g., on one machine if training in a distributed fashion on
            several machines) main process.
        is_world_process_zero (:obj:`bool`, `optional`, defaults to :obj:`True`):
            Whether or not this process is the global main process (when training in a distributed fashion on
            several machines, this is only going to be :obj:`True` for one process).
    """

    epoch: Optional[float] = None
    global_step: int = 0
    max_steps: int = 0
    num_train_epochs: int = 0
    total_flos: int = 0
    log_history: List[Dict[str, float]] = None
    best_metric: Optional[float] = None
    best_model_checkpoint: Optional[str] = None
    is_local_process_zero: bool = True
    is_world_process_zero: bool = True

    def __post_init__(self):
        if self.log_history is None:
            self.log_history = []

    def save_to_json(self, json_path: str):
        """ Save the content of this instance in JSON format inside :obj:`json_path`."""
        json_string = json.dumps(dataclasses.asdict(self), indent=2, sort_keys=True) + "\n"
        with open(json_path, "w", encoding="utf-8") as f:
            f.write(json_string)

    @classmethod
    def load_from_json(cls, json_path: str):
        """ Create an instance from the content of :obj:`json_path`."""
        with open(json_path, "r", encoding="utf-8") as f:
            text = f.read()
        return cls(**json.loads(text))


@dataclass
class TrainerControl:
    """
    A class that handles the :class:`~transformers.Trainer` control flow. This class is used by the
    :class:`~transformers.TrainerCallback` to activate some switches in the training loop.

    Args:
        should_training_stop (:obj:`bool`, `optional`, defaults to :obj:`False`):
            Whether or not the training should be interrupted.

            If :obj:`True`, this variable will not be set back to :obj:`False`. The training will just stop.
        should_epoch_stop (:obj:`bool`, `optional`, defaults to :obj:`False`):
            Whether or not the current epoch should be interrupted.

            If :obj:`True`, this variable will be set back to :obj:`False` at the beginning of the next epoch.
        should_save (:obj:`bool`, `optional`, defaults to :obj:`False`):
            Whether or not the model should be saved at this step.

            If :obj:`True`, this variable will be set back to :obj:`False` at the beginning of the next step.
        should_evaluate (:obj:`bool`, `optional`, defaults to :obj:`False`):
            Whether or not the model should be evaluated at this step.

            If :obj:`True`, this variable will be set back to :obj:`False` at the beginning of the next step.
        should_log (:obj:`bool`, `optional`, defaults to :obj:`False`):
            Whether or not the logs should be reported at this step.

            If :obj:`True`, this variable will be set back to :obj:`False` at the beginning of the next step.
    """

    should_training_stop: bool = False
    should_epoch_stop: bool = False
    should_save: bool = False
    should_evaluate: bool = False
    should_log: bool = False

    def _new_training(self):
        """ Internal method that resets the variable for a new training. """
        self.should_training_stop = False

    def _new_epoch(self):
        """ Internal method that resets the variable for a new epoch. """
        self.should_epoch_stop = False

    def _new_step(self):
        """ Internal method that resets the variable for a new step. """
        self.should_save_model = False
        self.should_evaluate = False
        self.should_log = False


class TrainerCallback:
    """
    A class for objects that will inspect the state of the training loop at some events and take some decisions. At
    each of those events the following arguments are available:

    Args:
        args (:class:`~transformers.TrainingArguments`):
            The training arguments used to instantiate the :class:`~transformers.Trainer`.
        state (:class:`~transformers.TrainerState`):
            The current state of the :class:`~transformers.Trainer`.
        control (:class:`~transformers.TrainerControl`):
            The object that is returned to the :class:`~transformers.Trainer` and can be used to make some decisions.
        model (:class:`~transformers.PreTrainedModel` or :obj:`torch.nn.Module`):
            The model being trained.
        optimizer (:obj:`torch.optim.Optimizer`):
            The optimizer used for the training steps.
        lr_scheduler (:obj:`torch.optim.lr_scheduler.LambdaLR`):
            The scheduler used for setting the learning rate.
        train_dataloader (:obj:`torch.utils.data.dataloader.DataLoader`, `optional`):
            The current dataloader used for training.
        eval_dataloader (:obj:`torch.utils.data.dataloader.DataLoader`, `optional`):
            The current dataloader used for training.
        metrics (:obj:`Dict[str, float]`):
            The metrics computed by the last evaluation phase.

            Those are only accessible in the event :obj:`on_evaluate`.
        logs  (:obj:`Dict[str, float]`):
            The values to log.

            Those are only accessible in the event :obj:`on_log`.

    The :obj:`control` object is the only one that can be changed by the callback, in which case the event that changes
    it should return the modified version.

    The argument :obj:`args`, :obj:`state` and :obj:`control` are positionals for all events, all the others are
    grouped in :obj:`kwargs`. You can unpack the ones you need in the signature of the event using them. As an example,
    see the code of the simple :class:`~transformer.PrinterCallback`.

    Example::

        class PrinterCallback(TrainerCallback):

            def on_log(self, args, state, control, logs=None, **kwargs):
                _ = logs.pop("total_flos", None)
                if state.is_local_process_zero:
                    print(logs)
    """

    def on_init_end(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called at the end of the initialization of the :class:`~transformers.Trainer`.
        """
        pass

    def on_train_begin(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called at the beginning of training.
        """
        pass

    def on_train_end(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called at the end of training.
        """
        pass

    def on_epoch_begin(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called at the beginning of an epoch.
        """
        pass

    def on_epoch_end(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called at the end of an epoch.
        """
        pass

    def on_step_begin(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called at the beginning of a training step. If using gradient accumulation, one training step might take
        several inputs.
        """
        pass

    def on_step_end(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called at the end of a training step. If using gradient accumulation, one training step might take
        several inputs.
        """
        pass

    def on_evaluate(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called after an evaluation phase.
        """
        pass

    def on_save(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called after a checkpoint save.
        """
        pass

    def on_log(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called after logging the last logs.
        """
        pass

    def on_prediction_step(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        """
        Event called after a prediction step.
        """
        pass


class CallbackHandler(TrainerCallback):
    """ Internal class that just calls the list of callbacks in order. """

    def __init__(self, callbacks, model, optimizer, lr_scheduler):
        self.callbacks = []
        for cb in callbacks:
            self.add_callback(cb)
        self.model = model
        self.optimizer = optimizer
        self.lr_scheduler = lr_scheduler
        self.train_dataloader = None
        self.eval_dataloader = None

        if not any(isinstance(cb, DefaultFlowCallback) for cb in self.callbacks):
            logger.warn(
                "The Trainer will not work properly if you don't have a `DefaultFlowCallback` in its callbacks. You\n"
                + "should add one before training with `trainer.add_callback(DefaultFlowCallback). The current list of"
                + "callbacks is\n:"
                + self.callback_list
            )

    def add_callback(self, callback):
        cb = callback() if isinstance(callback, type) else callback
        cb_class = callback if isinstance(callback, type) else callback.__class__
        if cb_class in [c.__class__ for c in self.callbacks]:
            logger.warn(
                f"You are adding a {cb_class} to the callbacks of this Trainer, but there is already one. The current"
                + "list of callbacks is\n:"
                + self.callback_list
            )
        self.callbacks.append(cb)

    def pop_callback(self, callback):
        if isinstance(callback, type):
            for cb in self.callbacks:
                if isinstance(cb, callback):
                    self.callbacks.remove(cb)
                    return cb
        else:
            for cb in self.callbacks:
                if cb == callback:
                    self.callbacks.remove(cb)
                    return cb

    def remove_callback(self, callback):
        if isinstance(callback, type):
            for cb in self.callbacks:
                if isinstance(cb, callback):
                    self.callbacks.remove(cb)
                    return
        else:
            self.callbacks.remove(callback)

    @property
    def callback_list(self):
        return "\n".join(self.callbacks)

    def on_init_end(self, args: TrainingArguments, state: TrainerState, control: TrainerControl):
        return self.call_event("on_init_end", args, state, control)

    def on_train_begin(self, args: TrainingArguments, state: TrainerState, control: TrainerControl):
        control.should_training_stop = False
        return self.call_event("on_train_begin", args, state, control)

    def on_train_end(self, args: TrainingArguments, state: TrainerState, control: TrainerControl):
        return self.call_event("on_train_end", args, state, control)

    def on_epoch_begin(self, args: TrainingArguments, state: TrainerState, control: TrainerControl):
        control.should_epoch_stop = False
        return self.call_event("on_epoch_begin", args, state, control)

    def on_epoch_end(self, args: TrainingArguments, state: TrainerState, control: TrainerControl):
        return self.call_event("on_epoch_end", args, state, control)

    def on_step_begin(self, args: TrainingArguments, state: TrainerState, control: TrainerControl):
        control.should_log = False
        control.should_evaluate = False
        control.should_save = False
        return self.call_event("on_step_begin", args, state, control)

    def on_step_end(self, args: TrainingArguments, state: TrainerState, control: TrainerControl):
        return self.call_event("on_step_end", args, state, control)

    def on_evaluate(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, metrics):
        control.should_evaluate = False
        return self.call_event("on_evaluate", args, state, control, metrics=metrics)

    def on_save(self, args: TrainingArguments, state: TrainerState, control: TrainerControl):
        control.should_save = False
        return self.call_event("on_save", args, state, control)

    def on_log(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, logs):
        control.should_log = False
        return self.call_event("on_log", args, state, control, logs=logs)

    def on_prediction_step(self, args: TrainingArguments, state: TrainerState, control: TrainerControl):
        return self.call_event("on_prediction_step", args, state, control)

    def call_event(self, event, args, state, control, **kwargs):
        for callback in self.callbacks:
            result = getattr(callback, event)(
                args,
                state,
                control,
                model=self.model,
                optimizer=self.optimizer,
                lr_scheduler=self.lr_scheduler,
                train_dataloader=self.train_dataloader,
                eval_dataloader=self.eval_dataloader,
                **kwargs,
            )
            # A Callback can skip the return of `control` if it doesn't change it.
            if result is not None:
                control = result
        return control


class DefaultFlowCallback(TrainerCallback):
    """
    A :class:`~transformers.TrainerCallback` that handles the default flow of the training loop for logs, evaluation
    and checkpoints.
    """

    def on_step_end(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        # Log
        if state.global_step == 1 and args.logging_first_step:
            control.should_log = True
        if args.logging_steps > 0 and state.global_step % args.logging_steps == 0:
            control.should_log = True

        # Evaluate
        if args.evaluation_strategy == EvaluationStrategy.STEPS and state.global_step % args.eval_steps == 0:
            control.should_evaluate = True
            if args.load_best_model_at_end:
                control.should_save = True

        # Save
        if not args.load_best_model_at_end and args.save_steps > 0 and state.global_step % args.save_steps == 0:
            control.should_save = True

        # End training
        if state.global_step >= state.max_steps:
            control.should_training_stop = True

        return control

    def on_epoch_end(self, args: TrainingArguments, state: TrainerState, control: TrainerControl, **kwargs):
        if args.evaluation_strategy == EvaluationStrategy.EPOCH:
            control.should_evaluate = True
            if args.load_best_model_at_end:
                control.should_save = True
        return control


class ProgressCallback(TrainerCallback):
    """
    A :class:`~transformers.TrainerCallback` that displays the progress of training or evaluation.
    """

    def __init__(self):
        self.training_bar = None
        self.prediction_bar = None

    def on_train_begin(self, args, state, control, **kwargs):
        if state.is_local_process_zero:
            self.training_bar = tqdm(total=state.max_steps)

    def on_step_end(self, args, state, control, **kwargs):
        if state.is_local_process_zero:
            self.training_bar.update(1)

    def on_prediction_step(self, args, state, control, eval_dataloader=None, **kwargs):
        if state.is_local_process_zero:
            if self.prediction_bar is None:
                self.prediction_bar = tqdm(total=len(eval_dataloader), leave=self.training_bar is None)
            self.prediction_bar.update(1)

    def on_evaluate(self, args, state, control, **kwargs):
        if state.is_local_process_zero:
            self.prediction_bar.close()
            self.prediction_bar = None

    def on_log(self, args, state, control, logs=None, **kwargs):
        if state.is_local_process_zero and self.training_bar is not None:
            _ = logs.pop("total_flos", None)
            self.training_bar.write(str(logs))

    def on_train_end(self, args, state, control, **kwargs):
        if state.is_local_process_zero:
            self.training_bar.close()
            self.training_bar = None


class PrinterCallback(TrainerCallback):
    """
    A bare :class:`~transformers.TrainerCallback` that just prints the logs.
    """

    def on_log(self, args, state, control, logs=None, **kwargs):
        _ = logs.pop("total_flos", None)
        if state.is_local_process_zero:
            print(logs)