View source on GitHub
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FeatureConnector for images.
Inherits From: FeatureConnector
tfds.features.Image(
*,
shape: Optional[utils.Shape] = None,
dtype: Optional[type_utils.TfdsDType] = None,
encoding_format: Optional[str] = None,
use_colormap: bool = False,
doc: feature_lib.DocArg = None
)
During _generate_examples, the feature connector accept as input any of:
str: path to a {bmp,gif,jpeg,png} image (ex:/path/to/img.png).np.array: 3dnp.uint8array representing an image.- A file object containing the png or jpeg encoded image string (ex:
io.BytesIO(encoded_img_bytes))
Output | |
|---|---|
tf.Tensor of type tf.uint8 and shape [height, width, num_channels]
for BMP, JPEG, and PNG images and shape [num_frames, height, width, 3] for
GIF images.
|
Example | |
|---|---|
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Args | |
|---|---|
shape
|
tuple of ints or None, the shape of decoded image. For GIF images:
(num_frames, height, width, channels=3). num_frames, height and width
can be None. For other images: (height, width, channels). height and
width can be None. See tf.image.encode_* for doc on channels
parameter. Defaults to (None, None, 3).
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dtype
|
np.uint8 (default), np.uint16 or np.float32. * np.uint16
requires png encoding_format. * np.float32 only supports
single-channel image. Internally float images are bitcasted to
4-channels np.uint8 and saved as PNG.
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encoding_format
|
'jpeg' or 'png'. Format to serialize np.ndarray images
on disk. If None, encode images as PNG. If image is loaded from
{bmg,gif,jpeg,png} file, this parameter is ignored, and file original
encoding is used.
|
use_colormap
|
Only used for gray-scale images. If True,
tfds.as_dataframe will display each value in the image with a
different color.
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doc
|
Documentation of this feature (e.g. description). |
Raises | |
|---|---|
ValueError
|
If the shape is invalid |
Methods
catalog_documentation
catalog_documentation() -> List[CatalogFeatureDocumentation]
Returns the feature documentation to be shown in the catalog.
cls_from_name
@classmethodcls_from_name( python_class_name: str ) -> Type['FeatureConnector']
Returns the feature class for the given Python class.
decode_batch_example
decode_batch_example(
tfexample_data
)
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
decode_example(
example
)
Reconstruct the image with TensorFlow from the tf example.
decode_example_np
decode_example_np(
example: bytes
) -> np.ndarray
Reconstruct the image with OpenCV from bytes, or default to PIL.
decode_example_np_with_opencv
decode_example_np_with_opencv(
example: bytes, num_channels: int
) -> np.ndarray
Reconstruct the image with OpenCV from bytes.
decode_example_np_with_pil
decode_example_np_with_pil(
example: bytes, num_channels: int
) -> np.ndarray
decode_ragged_example
decode_ragged_example(
tfexample_data
)
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
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encode_example
encode_example(
image_or_path_or_fobj
)
Convert the given image into a dict convertible to tf example.
from_config
@classmethodfrom_config( root_dir: str ) -> FeatureConnector
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
@classmethodfrom_json( value: Json ) -> FeatureConnector
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
@classmethodfrom_json_content( value: Union[Json, feature_pb2.ImageFeature] ) -> 'Image'
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.
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doc
|
Documentation of this feature (e.g. description). |
| Returns | |
|---|---|
| The reconstructed FeatureConnector. |
from_proto
@classmethodfrom_proto( feature_proto: feature_pb2.Feature ) -> T
Instantiates a feature from its proto representation.
get_serialized_info
get_serialized_info()
get_tensor_info
get_tensor_info()
get_tensor_spec
get_tensor_spec() -> TreeDict[tf.TensorSpec]
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
load_metadata(
data_dir: epath.PathLike, feature_name: Optional[str]
)
Restore the feature metadata from disk.
If a dataset is re-loaded and generated files exists on disk, this function will restore the feature metadata from the saved file.
| Args | |
|---|---|
data_dir
|
path to the dataset folder to which save the info (ex:
~/datasets/cifar10/1.2.0/)
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feature_name
|
the name of the feature (from the FeaturesDict key) |
repr_html
repr_html(
ex: np.ndarray
) -> str
Images are displayed as thumbnail.
repr_html_batch
repr_html_batch(
ex: np.ndarray
) -> str
Sequence(Image()) are displayed as <video>.
repr_html_ragged
repr_html_ragged(
ex: np.ndarray
) -> str
Returns the HTML str representation of the object (Nested sequence).
save_config
save_config(
root_dir: str
) -> None
Exports the FeatureConnector to a file.
| Args | |
|---|---|
root_dir
|
path/to/dir containing the features.json
|
save_metadata
save_metadata(
data_dir: epath.PathLike, feature_name: Optional[str]
) -> None
Save the feature metadata on disk.
This function is called after the data has been generated (by
_download_and_prepare) to save the feature connector info with the
generated dataset.
Some dataset/features dynamically compute info during
_download_and_prepare. For instance:
- Labels are loaded from the downloaded data
- Vocabulary is created from the downloaded data
- ImageLabelFolder compute the image dtypes/shape from the manual_dir
After the info have been added to the feature, this function allow to save those additional info to be restored the next time the data is loaded.
By default, this function do not save anything, but sub-classes can overwrite the function.
| Args | |
|---|---|
data_dir
|
path to the dataset folder to which save the info (ex:
~/datasets/cifar10/1.2.0/)
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feature_name
|
the name of the feature (from the FeaturesDict key) |
to_json
to_json() -> Json
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 into_json_content. Can contain nested sub-features (like fortfds.features.FeaturesDictandtfds.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.
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to_json_content
to_json_content() -> feature_pb2.ImageFeature
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.
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to_proto
to_proto() -> feature_pb2.Feature
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. |
Class Variables | |
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| ALIASES |
[]
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