コード例 #1
0
class _TfWriter(_BaseWriter):
    """A class to write various TensorFlow data into TensorBoard summary files.

    This class is intentionally not @traceable.

    Args:
        root_log_dir: The directory into which to store a new directory corresponding to this experiment's summary data
        time_stamp: The timestamp of this experiment (used as a folder name within `root_log_dir`).
        network: The network associated with the current experiment.
    """
    tf_summary_writers: Dict[str, tf.summary.SummaryWriter]

    def __init__(self, root_log_dir: str, time_stamp: str, network: TFNetwork) -> None:
        super().__init__(root_log_dir=root_log_dir, time_stamp=time_stamp, network=network)
        self.tf_summary_writers = DefaultKeyDict(
            lambda key: (tf.summary.create_file_writer(os.path.join(root_log_dir, time_stamp, key))))

    def write_epoch_models(self, mode: str) -> None:
        with self.tf_summary_writers[mode].as_default(), summary_ops_v2.always_record_summaries():
            summary_ops_v2.graph(backend.get_graph(), step=0)
            for model in self.network.epoch_models:
                summary_writable = (model.__class__.__name__ == 'Sequential'
                                    or (hasattr(model, '_is_graph_network') and model._is_graph_network))
                if summary_writable:
                    summary_ops_v2.keras_model(model.model_name, model, step=0)

    def write_weights(self, mode: str, models: Iterable[Model], step: int, visualize: bool) -> None:
        # Similar to TF implementation, but multiple models
        with self.tf_summary_writers[mode].as_default(), summary_ops_v2.always_record_summaries():
            for model in models:
                for layer in model.layers:
                    for weight in layer.weights:
                        weight_name = weight.name.replace(':', '_')
                        weight_name = "{}_{}".format(model.model_name, weight_name)
                        with tfops.init_scope():
                            weight = backend.get_value(weight)
                        summary_ops_v2.histogram(weight_name, weight, step=step)
                        if visualize:
                            weight = self._weight_to_image(weight=weight, kernel_channels_last=True)
                            if weight is not None:
                                summary_ops_v2.image(weight_name, weight, step=step, max_images=weight.shape[0])

    def close(self) -> None:
        super().close()
        modes = list(self.tf_summary_writers.keys())  # break connection with dictionary so can delete in iteration
        for mode in modes:
            self.tf_summary_writers[mode].close()
            del self.tf_summary_writers[mode]
コード例 #2
0
class _BaseWriter:
    """A class to write various types of data into TensorBoard summary files.

    This class is intentionally not @traceable.

    Args:
        root_log_dir: The directory into which to store a new directory corresponding to this experiment's summary data
        time_stamp: The timestamp of this experiment (used as a folder name within `root_log_dir`).
        network: The network associated with the current experiment.
    """
    summary_writers: Dict[str, SummaryWriter]
    network: BaseNetwork

    def __init__(self, root_log_dir: str, time_stamp: str,
                 network: BaseNetwork) -> None:
        self.summary_writers = DefaultKeyDict(lambda key: (SummaryWriter(
            log_dir=os.path.join(root_log_dir, time_stamp, key))))
        self.network = network

    def write_epoch_models(self, mode: str) -> None:
        """Write summary graphs for all of the models in the current epoch.

        Args:
            mode: The current mode of execution ('train', 'eval', 'test', 'infer').
        """
        raise NotImplementedError

    def write_weights(self, mode: str, models: Iterable[Model], step: int,
                      visualize: bool) -> None:
        """Write summaries of all of the weights of a given collection of `models`.

        Args:
            mode: The current mode of execution ('train', 'eval', 'test', 'infer').
            models: A list of models compiled with fe.build whose weights should be recorded.
            step: The current training step.
            visualize: Whether to attempt to paint graphical representations of the weights in addition to the default
                histogram summaries.
        """
        raise NotImplementedError

    def write_scalars(self, mode: str, scalars: Iterable[Tuple[str, Any]],
                      step: int) -> None:
        """Write summaries of scalars to TensorBoard.

        Args:
            mode: The current mode of execution ('train', 'eval', 'test', 'infer').
            scalars: A collection of pairs like [("key", val), ("key2", val2), ...].
            step: The current training step.
        """
        for key, val in scalars:
            self.summary_writers[mode].add_scalar(tag=key,
                                                  scalar_value=to_number(val),
                                                  global_step=step)

    def write_images(self, mode: str, images: Iterable[Tuple[str, Any]],
                     step: int) -> None:
        """Write images to TensorBoard.

        Args:
            mode: The current mode of execution ('train', 'eval', 'test', 'infer').
            images: A collection of pairs like [("key", image1), ("key2", image2), ...].
            step: The current training step.
        """
        for key, img in images:
            if isinstance(img, ImgData):
                img = img.paint_figure()
            if isinstance(img, plt.Figure):
                self.summary_writers[mode].add_figure(tag=key,
                                                      figure=img,
                                                      global_step=step)
            else:
                self.summary_writers[mode].add_images(
                    tag=key,
                    img_tensor=to_number(img),
                    global_step=step,
                    dataformats='NCHW'
                    if isinstance(img, torch.Tensor) else 'NHWC')

    def write_embeddings(
        self,
        mode: str,
        embeddings: Iterable[Tuple[str, Tensor, Optional[List[Any]],
                                   Optional[Tensor]]],
        step: int,
    ):
        """Write embeddings (like UMAP) to TensorBoard.

        Args:
            mode: The current mode of execution ('train', 'eval', 'test', 'infer').
            embeddings: A collection of quadruplets like [("key", <features>, [<label1>, ...], <label_images>)].
                Features are expected to be batched, and if labels and/or label images are provided they should have the
                same batch dimension as the features.
            step: The current training step.
        """
        for key, features, labels, label_imgs in embeddings:
            flat = to_number(reshape(features, [features.shape[0], -1]))
            if not isinstance(label_imgs, (torch.Tensor, type(None))):
                label_imgs = to_tensor(label_imgs, 'torch')
                if len(label_imgs.shape) == 4:
                    label_imgs = permute(label_imgs, [0, 3, 1, 2])
            self.summary_writers[mode].add_embedding(mat=flat,
                                                     metadata=labels,
                                                     label_img=label_imgs,
                                                     tag=key,
                                                     global_step=step)

    def close(self) -> None:
        """A method to flush and close all connections to the files on disk.
        """
        modes = list(self.summary_writers.keys(
        ))  # break connection with dictionary so can delete in iteration
        for mode in modes:
            self.summary_writers[mode].close()
            del self.summary_writers[mode]

    @staticmethod
    def _weight_to_image(
            weight: Tensor,
            kernel_channels_last: bool = False) -> Optional[Tensor]:
        """Logs a weight as a TensorBoard image.

        Implementation from TensorFlow codebase, would have invoked theirs directly but they didn't make it a static
        method.
        """
        w_img = squeeze(weight)
        shape = backend.int_shape(w_img)
        if len(shape) == 1:  # Bias case
            w_img = reshape(w_img, [1, shape[0], 1, 1])
        elif len(shape) == 2:  # Dense layer kernel case
            if shape[0] > shape[1]:
                w_img = permute(w_img, [0, 1])
                shape = backend.int_shape(w_img)
            w_img = reshape(w_img, [1, shape[0], shape[1], 1])
        elif len(shape) == 3:  # ConvNet case
            if kernel_channels_last:
                # Switch to channels_first to display every kernel as a separate images
                w_img = permute(w_img, [2, 0, 1])
            w_img = expand_dims(w_img, axis=-1)
        elif len(shape) == 4:  # Conv filter with multiple input channels
            if kernel_channels_last:
                # Switch to channels first to display kernels as separate images
                w_img = permute(w_img, [3, 2, 0, 1])
            w_img = reduce_sum(
                abs(w_img),
                axis=1)  # Sum over the each channel within the kernel
            w_img = expand_dims(w_img, axis=-1)
        shape = backend.int_shape(w_img)
        # Not possible to handle 3D convnets etc.
        if len(shape) == 4 and shape[-1] in [1, 3, 4]:
            return w_img