Source code for monai.handlers.tensorboard_handlers

# Copyright (c) MONAI Consortium
# 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
# Unless required by applicable law or agreed to in writing, software
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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from __future__ import annotations

import warnings
from collections.abc import Callable, Sequence
from typing import TYPE_CHECKING, Any

import numpy as np
import torch

from monai.config import IgniteInfo
from monai.utils import is_scalar, min_version, optional_import
from monai.visualize import plot_2d_or_3d_image

Events, _ = optional_import("ignite.engine", IgniteInfo.OPT_IMPORT_VERSION, min_version, "Events")

if TYPE_CHECKING:
    from ignite.engine import Engine
    from tensorboardX import SummaryWriter as SummaryWriterX
    from torch.utils.tensorboard import SummaryWriter
else:
    Engine, _ = optional_import(
        "ignite.engine", IgniteInfo.OPT_IMPORT_VERSION, min_version, "Engine", as_type="decorator"
    )
    SummaryWriter, _ = optional_import("torch.utils.tensorboard", name="SummaryWriter")
    SummaryWriterX, _ = optional_import("tensorboardX", name="SummaryWriter")

DEFAULT_TAG = "Loss"


[docs] class TensorBoardHandler: """ Base class for the handlers to write data into TensorBoard. Args: summary_writer: user can specify TensorBoard or TensorBoardX SummaryWriter, default to create a new TensorBoard writer. log_dir: if using default SummaryWriter, write logs to this directory, default is `./runs`. """ def __init__(self, summary_writer: SummaryWriter | SummaryWriterX | None = None, log_dir: str = "./runs"): if summary_writer is None: self._writer = SummaryWriter(log_dir=log_dir) self.internal_writer = True else: self._writer = summary_writer self.internal_writer = False def attach(self, engine: Engine) -> None: raise NotImplementedError(f"Subclass {self.__class__.__name__} must implement this method.")
[docs] def close(self): """ Close the summary writer if created in this TensorBoard handler. """ if self.internal_writer: self._writer.close()
[docs] class TensorBoardStatsHandler(TensorBoardHandler): """ TensorBoardStatsHandler defines a set of Ignite Event-handlers for all the TensorBoard logics. It can be used for any Ignite Engine(trainer, validator and evaluator). And it can support both epoch level and iteration level with pre-defined TensorBoard event writer. The expected data source is Ignite ``engine.state.output`` and ``engine.state.metrics``. Default behaviors: - When EPOCH_COMPLETED, write each dictionary item in ``engine.state.metrics`` to TensorBoard. - When ITERATION_COMPLETED, write each dictionary item in ``self.output_transform(engine.state.output)`` to TensorBoard. Usage example is available in the tutorial: https://github.com/Project-MONAI/tutorials/blob/master/3d_segmentation/unet_segmentation_3d_ignite.ipynb. """
[docs] def __init__( self, summary_writer: SummaryWriter | SummaryWriterX | None = None, log_dir: str = "./runs", iteration_log: bool | Callable[[Engine, int], bool] | int = True, epoch_log: bool | Callable[[Engine, int], bool] | int = True, epoch_event_writer: Callable[[Engine, Any], Any] | None = None, iteration_event_writer: Callable[[Engine, Any], Any] | None = None, output_transform: Callable = lambda x: x[0], global_epoch_transform: Callable = lambda x: x, state_attributes: Sequence[str] | None = None, tag_name: str = DEFAULT_TAG, ) -> None: """ Args: summary_writer: user can specify TensorBoard or TensorBoardX SummaryWriter, default to create a new TensorBoard writer. log_dir: if using default SummaryWriter, write logs to this directory, default is `./runs`. iteration_log: whether to write data to TensorBoard when iteration completed, default to `True`. ``iteration_log`` can be also a function or int. If it is an int, it will be interpreted as the iteration interval at which the iteration_event_writer is called. If it is a function, it will be interpreted as an event filter (see https://pytorch.org/ignite/generated/ignite.engine.events.Events.html for details). Event filter function accepts as input engine and event value (iteration) and should return True/False. epoch_log: whether to write data to TensorBoard when epoch completed, default to `True`. ``epoch_log`` can be also a function or int. If it is an int, it will be interpreted as the epoch interval at which the epoch_event_writer is called. If it is a function, it will be interpreted as an event filter. See ``iteration_log`` argument for more details. epoch_event_writer: customized callable TensorBoard writer for epoch level. Must accept parameter "engine" and "summary_writer", use default event writer if None. iteration_event_writer: customized callable TensorBoard writer for iteration level. Must accept parameter "engine" and "summary_writer", use default event writer if None. output_transform: a callable that is used to transform the ``ignite.engine.state.output`` into a scalar to plot, or a dictionary of {key: scalar}. In the latter case, the output string will be formatted as key: value. By default this value plotting happens when every iteration completed. The default behavior is to print loss from output[0] as output is a decollated list and we replicated loss value for every item of the decollated list. `engine.state` and `output_transform` inherit from the ignite concept: https://pytorch.org/ignite/concepts.html#state, explanation and usage example are in the tutorial: https://github.com/Project-MONAI/tutorials/blob/master/modules/batch_output_transform.ipynb. global_epoch_transform: a callable that is used to customize global epoch number. For example, in evaluation, the evaluator engine might want to use trainer engines epoch number when plotting epoch vs metric curves. state_attributes: expected attributes from `engine.state`, if provided, will extract them when epoch completed. tag_name: when iteration output is a scalar, tag_name is used to plot, defaults to ``'Loss'``. """ super().__init__(summary_writer=summary_writer, log_dir=log_dir) self.iteration_log = iteration_log self.epoch_log = epoch_log self.epoch_event_writer = epoch_event_writer self.iteration_event_writer = iteration_event_writer self.output_transform = output_transform self.global_epoch_transform = global_epoch_transform self.state_attributes = state_attributes self.tag_name = tag_name
[docs] def attach(self, engine: Engine) -> None: """ Register a set of Ignite Event-Handlers to a specified Ignite engine. Args: engine: Ignite Engine, it can be a trainer, validator or evaluator. """ if self.iteration_log and not engine.has_event_handler(self.iteration_completed, Events.ITERATION_COMPLETED): event = Events.ITERATION_COMPLETED if callable(self.iteration_log): # substitute event with new one using filter callable event = event(event_filter=self.iteration_log) elif self.iteration_log > 1: event = event(every=self.iteration_log) engine.add_event_handler(event, self.iteration_completed) if self.epoch_log and not engine.has_event_handler(self.epoch_completed, Events.EPOCH_COMPLETED): event = Events.EPOCH_COMPLETED if callable(self.epoch_log): # substitute event with new one using filter callable event = event(event_filter=self.epoch_log) elif self.epoch_log > 1: event = event(every=self.epoch_log) engine.add_event_handler(event, self.epoch_completed)
[docs] def epoch_completed(self, engine: Engine) -> None: """ Handler for train or validation/evaluation epoch completed Event. Write epoch level events, default values are from Ignite `engine.state.metrics` dict. Args: engine: Ignite Engine, it can be a trainer, validator or evaluator. """ if self.epoch_event_writer is not None: self.epoch_event_writer(engine, self._writer) else: self._default_epoch_writer(engine, self._writer)
[docs] def iteration_completed(self, engine: Engine) -> None: """ Handler for train or validation/evaluation iteration completed Event. Write iteration level events, default values are from Ignite `engine.state.output`. Args: engine: Ignite Engine, it can be a trainer, validator or evaluator. """ if self.iteration_event_writer is not None: self.iteration_event_writer(engine, self._writer) else: self._default_iteration_writer(engine, self._writer)
def _write_scalar( self, _engine: Engine, writer: SummaryWriter | SummaryWriterX, tag: str, value: Any, step: int ) -> None: """ Write scale value into TensorBoard. Default to call `SummaryWriter.add_scalar()`. Args: _engine: Ignite Engine, unused argument. writer: TensorBoard or TensorBoardX writer, passed or created in TensorBoardHandler. tag: tag name in the TensorBoard. value: value of the scalar data for current step. step: index of current step. """ writer.add_scalar(tag, value, step) def _default_epoch_writer(self, engine: Engine, writer: SummaryWriter | SummaryWriterX) -> None: """ Execute epoch level event write operation. Default to write the values from Ignite `engine.state.metrics` dict and write the values of specified attributes of `engine.state`. Args: engine: Ignite Engine, it can be a trainer, validator or evaluator. writer: TensorBoard or TensorBoardX writer, passed or created in TensorBoardHandler. """ current_epoch = self.global_epoch_transform(engine.state.epoch) summary_dict = engine.state.metrics for name, value in summary_dict.items(): if is_scalar(value): self._write_scalar(engine, writer, name, value, current_epoch) if self.state_attributes is not None: for attr in self.state_attributes: self._write_scalar(engine, writer, attr, getattr(engine.state, attr, None), current_epoch) writer.flush() def _default_iteration_writer(self, engine: Engine, writer: SummaryWriter | SummaryWriterX) -> None: """ Execute iteration level event write operation based on Ignite `engine.state.output` data. Extract the values from `self.output_transform(engine.state.output)`. Since `engine.state.output` is a decollated list and we replicated the loss value for every item of the decollated list, the default behavior is to track the loss from `output[0]`. Args: engine: Ignite Engine, it can be a trainer, validator or evaluator. writer: TensorBoard or TensorBoardX writer, passed or created in TensorBoardHandler. """ loss = self.output_transform(engine.state.output) if loss is None: return # do nothing if output is empty if isinstance(loss, dict): for name in sorted(loss): value = loss[name] if not is_scalar(value): warnings.warn( "ignoring non-scalar output in TensorBoardStatsHandler," " make sure `output_transform(engine.state.output)` returns" " a scalar or dictionary of key and scalar pairs to avoid this warning." " {}:{}".format(name, type(value)) ) continue # not plot multi dimensional output self._write_scalar( _engine=engine, writer=writer, tag=name, value=value.item() if isinstance(value, torch.Tensor) else value, step=engine.state.iteration, ) elif is_scalar(loss): # not printing multi dimensional output self._write_scalar( _engine=engine, writer=writer, tag=self.tag_name, value=loss.item() if isinstance(loss, torch.Tensor) else loss, step=engine.state.iteration, ) else: warnings.warn( "ignoring non-scalar output in TensorBoardStatsHandler," " make sure `output_transform(engine.state.output)` returns" " a scalar or a dictionary of key and scalar pairs to avoid this warning." " {}".format(type(loss)) ) writer.flush()
[docs] class TensorBoardImageHandler(TensorBoardHandler): """ TensorBoardImageHandler is an Ignite Event handler that can visualize images, labels and outputs as 2D/3D images. 2D output (shape in Batch, channel, H, W) will be shown as simple image using the first element in the batch, for 3D to ND output (shape in Batch, channel, H, W, D) input, each of ``self.max_channels`` number of images' last three dimensions will be shown as animated GIF along the last axis (typically Depth). And if writer is from TensorBoardX, data has 3 channels and `max_channels=3`, will plot as RGB video. It can be used for any Ignite Engine (trainer, validator and evaluator). User can easily add it to engine for any expected Event, for example: ``EPOCH_COMPLETED``, ``ITERATION_COMPLETED``. The expected data source is ignite's ``engine.state.batch`` and ``engine.state.output``. Default behavior: - Show y_pred as images (GIF for 3D) on TensorBoard when Event triggered, - Need to use ``batch_transform`` and ``output_transform`` to specify how many images to show and show which channel. - Expects ``batch_transform(engine.state.batch)`` to return data format: (image[N, channel, ...], label[N, channel, ...]). - Expects ``output_transform(engine.state.output)`` to return a torch tensor in format (y_pred[N, channel, ...], loss). Usage example is available in the tutorial: https://github.com/Project-MONAI/tutorials/blob/master/3d_segmentation/unet_segmentation_3d_ignite.ipynb. """
[docs] def __init__( self, summary_writer: SummaryWriter | SummaryWriterX | None = None, log_dir: str = "./runs", interval: int = 1, epoch_level: bool = True, batch_transform: Callable = lambda x: x, output_transform: Callable = lambda x: x, global_iter_transform: Callable = lambda x: x, index: int = 0, max_channels: int = 1, frame_dim: int = -3, max_frames: int = 64, ) -> None: """ Args: summary_writer: user can specify TensorBoard or TensorBoardX SummaryWriter, default to create a new TensorBoard writer. log_dir: if using default SummaryWriter, write logs to this directory, default is `./runs`. interval: plot content from engine.state every N epochs or every N iterations, default is 1. epoch_level: plot content from engine.state every N epochs or N iterations. `True` is epoch level, `False` is iteration level. batch_transform: a callable that is used to extract `image` and `label` from `ignite.engine.state.batch`, then construct `(image, label)` pair. for example: if `ignite.engine.state.batch` is `{"image": xxx, "label": xxx, "other": xxx}`, `batch_transform` can be `lambda x: (x["image"], x["label"])`. will use the result to plot image from `result[0][index]` and plot label from `result[1][index]`. `engine.state` and `batch_transform` inherit from the ignite concept: https://pytorch.org/ignite/concepts.html#state, explanation and usage example are in the tutorial: https://github.com/Project-MONAI/tutorials/blob/master/modules/batch_output_transform.ipynb. output_transform: a callable that is used to extract the `predictions` data from `ignite.engine.state.output`, will use the result to plot output from `result[index]`. `engine.state` and `output_transform` inherit from the ignite concept: https://pytorch.org/ignite/concepts.html#state, explanation and usage example are in the tutorial: https://github.com/Project-MONAI/tutorials/blob/master/modules/batch_output_transform.ipynb. global_iter_transform: a callable that is used to customize global step number for TensorBoard. For example, in evaluation, the evaluator engine needs to know current epoch from trainer. index: plot which element in a data batch, default is the first element. max_channels: number of channels to plot. frame_dim: if plotting 3D image as GIF, specify the dimension used as frames, expect input data shape as `NCHWD`, default to `-3` (the first spatial dim) max_frames: if plot 3D RGB image as video in TensorBoardX, set the FPS to `max_frames`. """ super().__init__(summary_writer=summary_writer, log_dir=log_dir) self.interval = interval self.epoch_level = epoch_level self.batch_transform = batch_transform self.output_transform = output_transform self.global_iter_transform = global_iter_transform self.index = index self.frame_dim = frame_dim self.max_frames = max_frames self.max_channels = max_channels
[docs] def attach(self, engine: Engine) -> None: """ Args: engine: Ignite Engine, it can be a trainer, validator or evaluator. """ if self.epoch_level: engine.add_event_handler(Events.EPOCH_COMPLETED(every=self.interval), self) else: engine.add_event_handler(Events.ITERATION_COMPLETED(every=self.interval), self)
def __call__(self, engine: Engine) -> None: """ Args: engine: Ignite Engine, it can be a trainer, validator or evaluator. Raises: TypeError: When ``output_transform(engine.state.output)[0]`` type is not in ``Optional[Union[numpy.ndarray, torch.Tensor]]``. TypeError: When ``batch_transform(engine.state.batch)[1]`` type is not in ``Optional[Union[numpy.ndarray, torch.Tensor]]``. TypeError: When ``output_transform(engine.state.output)`` type is not in ``Optional[Union[numpy.ndarray, torch.Tensor]]``. """ step = self.global_iter_transform(engine.state.epoch if self.epoch_level else engine.state.iteration) show_images = self.batch_transform(engine.state.batch)[0][self.index] if isinstance(show_images, torch.Tensor): show_images = show_images.detach().cpu().numpy() if show_images is not None: if not isinstance(show_images, np.ndarray): raise TypeError( "output_transform(engine.state.output)[0] must be None or one of " f"(numpy.ndarray, torch.Tensor) but is {type(show_images).__name__}." ) plot_2d_or_3d_image( # add batch dim and plot the first item data=show_images[None], step=step, writer=self._writer, index=0, max_channels=self.max_channels, frame_dim=self.frame_dim, max_frames=self.max_frames, tag="input_0", ) show_labels = self.batch_transform(engine.state.batch)[1][self.index] if isinstance(show_labels, torch.Tensor): show_labels = show_labels.detach().cpu().numpy() if show_labels is not None: if not isinstance(show_labels, np.ndarray): raise TypeError( "batch_transform(engine.state.batch)[1] must be None or one of " f"(numpy.ndarray, torch.Tensor) but is {type(show_labels).__name__}." ) plot_2d_or_3d_image( data=show_labels[None], step=step, writer=self._writer, index=0, max_channels=self.max_channels, frame_dim=self.frame_dim, max_frames=self.max_frames, tag="input_1", ) show_outputs = self.output_transform(engine.state.output)[self.index] if isinstance(show_outputs, torch.Tensor): show_outputs = show_outputs.detach().cpu().numpy() if show_outputs is not None: if not isinstance(show_outputs, np.ndarray): raise TypeError( "output_transform(engine.state.output) must be None or one of " f"(numpy.ndarray, torch.Tensor) but is {type(show_outputs).__name__}." ) plot_2d_or_3d_image( data=show_outputs[None], step=step, writer=self._writer, index=0, max_channels=self.max_channels, frame_dim=self.frame_dim, max_frames=self.max_frames, tag="output", ) self._writer.flush()