tfds.features.Dataset

A Dataset feature encodes a nested dataset.

Inherits From: Sequence, FeatureConnector

Dataset corresponds to a dataset of tfds.features.FeatureConnector. Using tfds.features.Dataset will return a nested tf.data.Dataset inside the top-level tf.data.Dataset returned by tfds.load. At generation time, an iterable over the dataset elements is given.

This is an experimental feature. Currently, only one level of nesting is supported and TF1 graph is not supported either.

Example:

At construction time (inside _info):

  features=tfds.features.FeatureDict({
   'agent_id': np.object_,
    'episode': tfds.features.Dataset({
      'observation': tfds.features.Image(),
      'reward': tfds.features.Image(),
    }),
  })

Will return:

{
  'agent_id': tf.Tensor(shape=(), dtype=tf.string),
  'episode': tf.data.Dataset(element_spec={
      'observation': tf.Tensor(shape=(None, None, 3), dtype=tf.uint8),
      'reward': tf.Tensor(shape=(), dtype=tf.int32),
  }),
  }

The nested dataset can be used as:

for e in tfds.load(...): # {'agent_id': tf.Tensor, 'episode': tf.data.Dataset}
  for step in e['episode']:  # Each episode is a nested  `tf.data.Dataset`
    step['observation']

During generation, it accept any Iterable/Iterator, like

yield _, {
  'agent_id': agent_name
  'episode': ({'observation': ..., 'reward': ...} for _ in range(10)),
}

Or a dictionary of Iterable, like

yield _, {
  'agent_id': agent_name
  'episode': {'observation': np.ones(10), 'reward': np.ones(10)} ,
}

feature The features to wrap (any feature supported)
length int, length of the sequence if static and known in advance
doc Documentation of this feature (e.g. description).

doc

dtype Return the dtype (or dict of dtype) of this FeatureConnector.
feature The inner feature.
flat_features

flat_sequence_ranks

flat_serialized_info

np_dtype

numpy_dtype

shape Return the shape (or dict of shape) of this FeatureConnector.
tf_dtype

tf_example_spec Returns the tf.Example proto structure.

Methods

catalog_documentation

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Returns the feature documentation to be shown in the catalog.

cls_from_name

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Returns the feature class for the given Python class.

decode_batch_example

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Decode multiple features batched in a single tf.Tensor.

This function is used to decode features wrapped in tfds.features.Sequence(). By default, this function apply decode_example on each individual elements using tf.map_fn. However, for optimization, features can overwrite this method to apply a custom batch decoding.

Args
tfexample_data Same tf.Tensor inputs as decode_example, but with and additional first dimension for the sequence length.

Returns
tensor_data Tensor or dictionary of tensor, output of the tf.data.Dataset object

decode_example

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Decode the feature dict to TF compatible input.

Args
tfexample_data Data or dictionary of data, as read by the tf-example reader. It correspond to the tf.Tensor() (or dict of tf.Tensor()) extracted from the tf.train.Example, matching the info defined in get_serialized_info().

Returns
tensor_data Tensor or dictionary of tensor, output of the tf.data.Dataset object

decode_example_np

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Encode the feature dict into NumPy-compatible input.

Args
example_data Value to convert to NumPy.

Returns
np_data Data as NumPy-compatible type: either a Python primitive (bytes, int, etc) or a NumPy array.

decode_ragged_example

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Decode nested features from a tf.RaggedTensor.

This function is used to decode features wrapped in nested tfds.features.Sequence(). By default, this function apply decode_batch_example on the flat values of the ragged tensor. For optimization, features can overwrite this method to apply a custom batch decoding.

Args
tfexample_data tf.RaggedTensor inputs containing the nested encoded examples.

Returns
tensor_data The decoded tf.RaggedTensor or dictionary of tensor, output of the tf.data.Dataset object

deserialize_example

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Decodes the tf.train.Example data into tf.Tensor.

See serialize_example to encode the data into proto.

Args
serialized_example The tensor-like object containing the serialized tf.train.Example proto.
decoders Eventual decoders to apply (see documentation)

Returns
The decoded features tensors.

deserialize_example_np

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encode_example

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Encode the feature dict into tf-example compatible input.

The input example_data can be anything that the user passed at data generation. For example:

For features:

features={
    'image': tfds.features.Image(),
    'custom_feature': tfds.features.CustomFeature(),
}

At data generation (in _generate_examples), if the user yields:

yield {
    'image': 'path/to/img.png',
    'custom_feature': [123, 'str', lambda x: x+1]
}

Then

Args
example_data Value or dictionary of values to convert into tf-example compatible data.

Returns
tfexample_data Data or dictionary of data to write as tf-example. Data can be a list or numpy array. Note that numpy arrays are flattened so it's the feature connector responsibility to reshape them in decode_example(). Note that tf.train.Example only supports int64, float32 and string so the data returned here should be integer, float or string. User type can be restored in decode_example().

from_config

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Reconstructs the FeatureConnector from the config file.

Usage:

features = FeatureConnector.from_config('path/to/dir')

Args
root_dir Directory containing the features.json file.

Returns
The reconstructed feature instance.

from_json

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FeatureConnector factory.

This function should be called from the tfds.features.FeatureConnector base class. Subclass should implement the from_json_content.

Example:

feature = tfds.features.FeatureConnector.from_json(
    {'type': 'Image', 'content': {'shape': [32, 32, 3], 'dtype': 'uint8'} }
)
assert isinstance(feature, tfds.features.Image)

Args
value dict(type=, content=) containing the feature to restore. Match dict returned by to_json.

Returns
The reconstructed FeatureConnector.

from_json_content

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FeatureConnector factory (to overwrite).

Subclasses should overwrite this method. This method is used when importing the feature connector from the config.

This function should not be called directly. FeatureConnector.from_json should be called instead.

See existing FeatureConnectors for implementation examples.

Args
value FeatureConnector information represented as either Json or a Feature proto. The content must match what is returned by to_json_content.
doc Documentation of this feature (e.g. description).

Returns
The reconstructed FeatureConnector.

from_proto

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Instantiates a feature from its proto representation.

get_serialized_info

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get_tensor_info

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Shape of one element of the dataset.

get_tensor_spec

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Returns the tf.TensorSpec of this feature (not the element spec!).

Note that the output of this method may not correspond to the element spec of the dataset. For example, currently this method does not support RaggedTensorSpec.

load_metadata

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See base class for details.

repr_html

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Returns the HTML str representation of the object.

repr_html_batch

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Returns the HTML str representation of the object (Sequence).

repr_html_ragged

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Returns the HTML str representation of the object (Nested sequence).

save_config

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Exports the FeatureConnector to a file.

Args
root_dir path/to/dir containing the features.json

save_metadata

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See base class for details.

serialize_example

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Encodes nested data values into tf.train.Example bytes.

See deserialize_example to decode the proto into tf.Tensor.

Args
example_data Example data to encode (numpy-like nested dict)

Returns
The serialized tf.train.Example.

to_json

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Exports the FeatureConnector to Json.

Each feature is serialized as a dict(type=..., content=...).

  • type: The cannonical name of the feature (module.FeatureName).
  • content: is specific to each feature connector and defined in to_json_content. Can contain nested sub-features (like for tfds.features.FeaturesDict and tfds.features.Sequence).

For example:

tfds.features.FeaturesDict({
    'input': tfds.features.Image(),
    'target': tfds.features.ClassLabel(num_classes=10),
})

Is serialized as:

{
    "type": "tensorflow_datasets.core.features.features_dict.FeaturesDict",
    "content": {
        "input": {
            "type": "tensorflow_datasets.core.features.image_feature.Image",
            "content": {
                "shape": [null, null, 3],
                "dtype": "uint8",
                "encoding_format": "png"
            }
        },
        "target": {
            "type":
            "tensorflow_datasets.core.features.class_label_feature.ClassLabel",
            "content": {
              "num_classes": 10
            }
        }
    }
}

Returns
A dict(type=, content=). Will be forwarded to from_json when reconstructing the feature.

to_json_content

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FeatureConnector factory (to overwrite).

This function should be overwritten by the subclass to allow re-importing the feature connector from the config. See existing FeatureConnector for example of implementation.

Returns
The FeatureConnector metadata in either a dict, or a Feature proto. This output is used in from_json_content when reconstructing the feature.

to_proto

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Exports the FeatureConnector to the Feature proto.

For features that have a specific schema defined in a proto, this function needs to be overriden. If there's no specific proto schema, then the feature will be represented using JSON.

Returns
The feature proto describing this feature.

__contains__

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__getitem__

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Convenience method to access the underlying features.

ALIASES []