Exemplo n.º 1
0
def export(input_type: str,
           batch_size: Optional[int],
           input_image_size: List[int],
           params: cfg.ExperimentConfig,
           checkpoint_path: str,
           export_dir: str,
           num_channels: Optional[int] = 3,
           export_module: Optional[export_base.ExportModule] = None,
           export_checkpoint_subdir: Optional[str] = None,
           export_saved_model_subdir: Optional[str] = None,
           save_options: Optional[tf.saved_model.SaveOptions] = None):
    """Exports the model specified in the exp config.

  Saved model is stored at export_dir/saved_model, checkpoint is saved
  at export_dir/checkpoint, and params is saved at export_dir/params.yaml.

  Args:
    input_type: One of `image_tensor`, `image_bytes`, `tf_example`.
    batch_size: 'int', or None.
    input_image_size: List or Tuple of height and width.
    params: Experiment params.
    checkpoint_path: Trained checkpoint path or directory.
    export_dir: Export directory path.
    num_channels: The number of input image channels.
    export_module: Optional export module to be used instead of using params
      to create one. If None, the params will be used to create an export
      module.
    export_checkpoint_subdir: Optional subdirectory under export_dir
      to store checkpoint.
    export_saved_model_subdir: Optional subdirectory under export_dir
      to store saved model.
    save_options: `SaveOptions` for `tf.saved_model.save`.
  """

    if export_checkpoint_subdir:
        output_checkpoint_directory = os.path.join(export_dir,
                                                   export_checkpoint_subdir)
    else:
        output_checkpoint_directory = None

    if export_saved_model_subdir:
        output_saved_model_directory = os.path.join(export_dir,
                                                    export_saved_model_subdir)
    else:
        output_saved_model_directory = export_dir

    export_module = export_module_factory.get_export_module(
        params,
        input_type=input_type,
        batch_size=batch_size,
        input_image_size=input_image_size,
        num_channels=num_channels)

    export_base.export(export_module,
                       function_keys=[input_type],
                       export_savedmodel_dir=output_saved_model_directory,
                       checkpoint_path=checkpoint_path,
                       timestamped=False,
                       save_options=save_options)

    if output_checkpoint_directory:
        ckpt = tf.train.Checkpoint(model=export_module.model)
        ckpt.save(os.path.join(output_checkpoint_directory, 'ckpt'))
    train_utils.serialize_config(params, export_dir)
Exemplo n.º 2
0
def export_inference_graph(
        input_type: str,
        batch_size: Optional[int],
        input_image_size: List[int],
        params: cfg.ExperimentConfig,
        checkpoint_path: str,
        export_dir: str,
        num_channels: Optional[int] = 3,
        export_module: Optional[export_base.ExportModule] = None,
        export_checkpoint_subdir: Optional[str] = None,
        export_saved_model_subdir: Optional[str] = None,
        save_options: Optional[tf.saved_model.SaveOptions] = None,
        log_model_flops_and_params: bool = False):
    """Exports inference graph for the model specified in the exp config.

  Saved model is stored at export_dir/saved_model, checkpoint is saved
  at export_dir/checkpoint, and params is saved at export_dir/params.yaml.

  Args:
    input_type: One of `image_tensor`, `image_bytes`, `tf_example` or `tflite`.
    batch_size: 'int', or None.
    input_image_size: List or Tuple of height and width.
    params: Experiment params.
    checkpoint_path: Trained checkpoint path or directory.
    export_dir: Export directory path.
    num_channels: The number of input image channels.
    export_module: Optional export module to be used instead of using params
      to create one. If None, the params will be used to create an export
      module.
    export_checkpoint_subdir: Optional subdirectory under export_dir
      to store checkpoint.
    export_saved_model_subdir: Optional subdirectory under export_dir
      to store saved model.
    save_options: `SaveOptions` for `tf.saved_model.save`.
    log_model_flops_and_params: If True, writes model FLOPs to model_flops.txt
      and model parameters to model_params.txt.
  """

    if export_checkpoint_subdir:
        output_checkpoint_directory = os.path.join(export_dir,
                                                   export_checkpoint_subdir)
    else:
        output_checkpoint_directory = None

    if export_saved_model_subdir:
        output_saved_model_directory = os.path.join(export_dir,
                                                    export_saved_model_subdir)
    else:
        output_saved_model_directory = export_dir

    # TODO(arashwan): Offers a direct path to use ExportModule with Task objects.
    if not export_module:
        if isinstance(params.task,
                      configs.image_classification.ImageClassificationTask):
            export_module = image_classification.ClassificationModule(
                params=params,
                batch_size=batch_size,
                input_image_size=input_image_size,
                input_type=input_type,
                num_channels=num_channels)
        elif isinstance(params.task,
                        configs.retinanet.RetinaNetTask) or isinstance(
                            params.task, configs.maskrcnn.MaskRCNNTask):
            export_module = detection.DetectionModule(
                params=params,
                batch_size=batch_size,
                input_image_size=input_image_size,
                input_type=input_type,
                num_channels=num_channels)
        elif isinstance(
                params.task,
                configs.semantic_segmentation.SemanticSegmentationTask):
            export_module = semantic_segmentation.SegmentationModule(
                params=params,
                batch_size=batch_size,
                input_image_size=input_image_size,
                input_type=input_type,
                num_channels=num_channels)
        elif isinstance(params.task,
                        configs.video_classification.VideoClassificationTask):
            export_module = video_classification.VideoClassificationModule(
                params=params,
                batch_size=batch_size,
                input_image_size=input_image_size,
                input_type=input_type,
                num_channels=num_channels)
        else:
            raise ValueError(
                'Export module not implemented for {} task.'.format(
                    type(params.task)))

    export_base.export(export_module,
                       function_keys=[input_type],
                       export_savedmodel_dir=output_saved_model_directory,
                       checkpoint_path=checkpoint_path,
                       timestamped=False,
                       save_options=save_options)

    if output_checkpoint_directory:
        ckpt = tf.train.Checkpoint(model=export_module.model)
        ckpt.save(os.path.join(output_checkpoint_directory, 'ckpt'))
    train_utils.serialize_config(params, export_dir)

    if log_model_flops_and_params:
        inputs_kwargs = None
        if isinstance(
                params.task,
            (configs.retinanet.RetinaNetTask, configs.maskrcnn.MaskRCNNTask)):
            # We need to create inputs_kwargs argument to specify the input shapes for
            # subclass model that overrides model.call to take multiple inputs,
            # e.g., RetinaNet model.
            inputs_kwargs = {
                'images':
                tf.TensorSpec([1] + input_image_size + [num_channels],
                              tf.float32),
                'image_shape':
                tf.TensorSpec([1, 2], tf.float32)
            }
            dummy_inputs = {
                k: tf.ones(v.shape.as_list(), tf.float32)
                for k, v in inputs_kwargs.items()
            }
            # Must do forward pass to build the model.
            export_module.model(**dummy_inputs)
        else:
            logging.info(
                'Logging model flops and params not implemented for %s task.',
                type(params.task))
            return
        train_utils.try_count_flops(
            export_module.model, inputs_kwargs,
            os.path.join(export_dir, 'model_flops.txt'))
        train_utils.write_model_params(
            export_module.model, os.path.join(export_dir, 'model_params.txt'))
Exemplo n.º 3
0
def export_inference_graph(
        input_type: str,
        batch_size: Optional[int],
        input_image_size: List[int],
        params: cfg.ExperimentConfig,
        checkpoint_path: str,
        export_dir: str,
        num_channels: Optional[int] = 3,
        export_module: Optional[export_base.ExportModule] = None,
        export_checkpoint_subdir: Optional[str] = None,
        export_saved_model_subdir: Optional[str] = None,
        save_options: Optional[tf.saved_model.SaveOptions] = None):
    """Exports inference graph for the model specified in the exp config.

  Saved model is stored at export_dir/saved_model, checkpoint is saved
  at export_dir/checkpoint, and params is saved at export_dir/params.yaml.

  Args:
    input_type: One of `image_tensor`, `image_bytes`, `tf_example`.
    batch_size: 'int', or None.
    input_image_size: List or Tuple of height and width.
    params: Experiment params.
    checkpoint_path: Trained checkpoint path or directory.
    export_dir: Export directory path.
    num_channels: The number of input image channels.
    export_module: Optional export module to be used instead of using params
      to create one. If None, the params will be used to create an export
      module.
    export_checkpoint_subdir: Optional subdirectory under export_dir
      to store checkpoint.
    export_saved_model_subdir: Optional subdirectory under export_dir
      to store saved model.
    save_options: `SaveOptions` for `tf.saved_model.save`.
  """

    if export_checkpoint_subdir:
        output_checkpoint_directory = os.path.join(export_dir,
                                                   export_checkpoint_subdir)
    else:
        output_checkpoint_directory = export_dir

    if export_saved_model_subdir:
        output_saved_model_directory = os.path.join(export_dir,
                                                    export_saved_model_subdir)
    else:
        output_saved_model_directory = export_dir

    # TODO(arashwan): Offers a direct path to use ExportModule with Task objects.
    if not export_module:
        if isinstance(params.task,
                      configs.image_classification.ImageClassificationTask):
            export_module = image_classification.ClassificationModule(
                params=params,
                batch_size=batch_size,
                input_image_size=input_image_size,
                num_channels=num_channels)
        elif isinstance(params.task,
                        configs.retinanet.RetinaNetTask) or isinstance(
                            params.task, configs.maskrcnn.MaskRCNNTask):
            export_module = detection.DetectionModule(
                params=params,
                batch_size=batch_size,
                input_image_size=input_image_size,
                num_channels=num_channels)
        elif isinstance(
                params.task,
                configs.semantic_segmentation.SemanticSegmentationTask):
            export_module = semantic_segmentation.SegmentationModule(
                params=params,
                batch_size=batch_size,
                input_image_size=input_image_size,
                num_channels=num_channels)
        elif isinstance(params.task,
                        configs.video_classification.VideoClassificationTask):
            export_module = video_classification.VideoClassificationModule(
                params=params,
                batch_size=batch_size,
                input_image_size=input_image_size,
                num_channels=num_channels)
        else:
            raise ValueError(
                'Export module not implemented for {} task.'.format(
                    type(params.task)))

    export_base.export(export_module,
                       function_keys=[input_type],
                       export_savedmodel_dir=output_saved_model_directory,
                       checkpoint_path=checkpoint_path,
                       timestamped=False,
                       save_options=save_options)

    ckpt = tf.train.Checkpoint(model=export_module.model)
    ckpt.save(os.path.join(output_checkpoint_directory, 'ckpt'))
    train_utils.serialize_config(params, export_dir)