Feature Extractor
A feature extractor is in charge of preparing input features for audio or vision models. This includes feature extraction from sequences, e.g., pre-processing audio files to Log-Mel Spectrogram features, feature extraction from images e.g. cropping image image files, but also padding, normalization, and conversion to Numpy, PyTorch, and TensorFlow tensors.
FeatureExtractionMixin
This is a feature extraction mixin used to provide saving/loading functionality for sequential and image feature extractors.
from_pretrained
< source >( pretrained_model_name_or_path: typing.Union[str, os.PathLike] cache_dir: typing.Union[str, os.PathLike, NoneType] = None force_download: bool = False local_files_only: bool = False token: typing.Union[str, bool, NoneType] = None revision: str = 'main' **kwargs )
Parameters
-
pretrained_model_name_or_path (
str
oros.PathLike
) — This can be either:- a string, the model id of a pretrained feature_extractor hosted inside a model repo on
huggingface.co. Valid model ids can be located at the root-level, like
bert-base-uncased
, or namespaced under a user or organization name, likedbmdz/bert-base-german-cased
. - a path to a directory containing a feature extractor file saved using the
save_pretrained() method, e.g.,
./my_model_directory/
. - a path or url to a saved feature extractor JSON file, e.g.,
./my_model_directory/preprocessor_config.json
.
- a string, the model id of a pretrained feature_extractor hosted inside a model repo on
huggingface.co. Valid model ids can be located at the root-level, like
-
cache_dir (
str
oros.PathLike
, optional) — Path to a directory in which a downloaded pretrained model feature extractor should be cached if the standard cache should not be used. -
force_download (
bool
, optional, defaults toFalse
) — Whether or not to force to (re-)download the feature extractor files and override the cached versions if they exist. -
resume_download (
bool
, optional, defaults toFalse
) — Whether or not to delete incompletely received file. Attempts to resume the download if such a file exists. -
proxies (
Dict[str, str]
, optional) — A dictionary of proxy servers to use by protocol or endpoint, e.g.,{'http': 'foo.bar:3128', 'http://hostname': 'foo.bar:4012'}.
The proxies are used on each request. -
token (
str
orbool
, optional) — The token to use as HTTP bearer authorization for remote files. IfTrue
, or not specified, will use the token generated when runninghuggingface-cli login
(stored in~/.huggingface
). -
revision (
str
, optional, defaults to"main"
) — The specific model version to use. It can be a branch name, a tag name, or a commit id, since we use a git-based system for storing models and other artifacts on huggingface.co, sorevision
can be any identifier allowed by git.
Instantiate a type of FeatureExtractionMixin from a feature extractor, e.g. a derived class of SequenceFeatureExtractor.
Examples:
# We can't instantiate directly the base class *FeatureExtractionMixin* nor *SequenceFeatureExtractor* so let's show the examples on a
# derived class: *Wav2Vec2FeatureExtractor*
feature_extractor = Wav2Vec2FeatureExtractor.from_pretrained(
"facebook/wav2vec2-base-960h"
) # Download feature_extraction_config from huggingface.co and cache.
feature_extractor = Wav2Vec2FeatureExtractor.from_pretrained(
"./test/saved_model/"
) # E.g. feature_extractor (or model) was saved using *save_pretrained('./test/saved_model/')*
feature_extractor = Wav2Vec2FeatureExtractor.from_pretrained("./test/saved_model/preprocessor_config.json")
feature_extractor = Wav2Vec2FeatureExtractor.from_pretrained(
"facebook/wav2vec2-base-960h", return_attention_mask=False, foo=False
)
assert feature_extractor.return_attention_mask is False
feature_extractor, unused_kwargs = Wav2Vec2FeatureExtractor.from_pretrained(
"facebook/wav2vec2-base-960h", return_attention_mask=False, foo=False, return_unused_kwargs=True
)
assert feature_extractor.return_attention_mask is False
assert unused_kwargs == {"foo": False}
save_pretrained
< source >( save_directory: typing.Union[str, os.PathLike] push_to_hub: bool = False **kwargs )
Parameters
-
save_directory (
str
oros.PathLike
) — Directory where the feature extractor JSON file will be saved (will be created if it does not exist). -
push_to_hub (
bool
, optional, defaults toFalse
) — Whether or not to push your model to the Hugging Face model hub after saving it. You can specify the repository you want to push to withrepo_id
(will default to the name ofsave_directory
in your namespace). -
kwargs (
Dict[str, Any]
, optional) — Additional key word arguments passed along to the push_to_hub() method.
Save a feature_extractor object to the directory save_directory
, so that it can be re-loaded using the
from_pretrained() class method.
SequenceFeatureExtractor
class transformers.SequenceFeatureExtractor
< source >( feature_size: int sampling_rate: int padding_value: float **kwargs )
This is a general feature extraction class for speech recognition.
pad
< source >( processed_features: typing.Union[transformers.feature_extraction_utils.BatchFeature, typing.List[transformers.feature_extraction_utils.BatchFeature], typing.Dict[str, transformers.feature_extraction_utils.BatchFeature], typing.Dict[str, typing.List[transformers.feature_extraction_utils.BatchFeature]], typing.List[typing.Dict[str, transformers.feature_extraction_utils.BatchFeature]]] padding: typing.Union[bool, str, transformers.utils.generic.PaddingStrategy] = True max_length: typing.Optional[int] = None truncation: bool = False pad_to_multiple_of: typing.Optional[int] = None return_attention_mask: typing.Optional[bool] = None return_tensors: typing.Union[str, transformers.utils.generic.TensorType, NoneType] = None )
Parameters
-
processed_features (BatchFeature, list of BatchFeature,
Dict[str, List[float]]
,Dict[str, List[List[float]]
orList[Dict[str, List[float]]]
) — Processed inputs. Can represent one input (BatchFeature orDict[str, List[float]]
) or a batch of input values / vectors (list of BatchFeature, Dict[str, List[List[float]]] or List[Dict[str, List[float]]]) so you can use this method during preprocessing as well as in a PyTorch Dataloader collate function.Instead of
List[float]
you can have tensors (numpy arrays, PyTorch tensors or TensorFlow tensors), see the note above for the return type. -
padding (
bool
,str
or PaddingStrategy, optional, defaults toTrue
) — Select a strategy to pad the returned sequences (according to the model’s padding side and padding index) among:True
or'longest'
: Pad to the longest sequence in the batch (or no padding if only a single sequence if provided).'max_length'
: Pad to a maximum length specified with the argumentmax_length
or to the maximum acceptable input length for the model if that argument is not provided.False
or'do_not_pad'
(default): No padding (i.e., can output a batch with sequences of different lengths).
-
max_length (
int
, optional) — Maximum length of the returned list and optionally padding length (see above). -
truncation (
bool
) — Activates truncation to cut input sequences longer thanmax_length
tomax_length
. -
pad_to_multiple_of (
int
, optional) — If set will pad the sequence to a multiple of the provided value.This is especially useful to enable the use of Tensor Cores on NVIDIA hardware with compute capability
>= 7.5
(Volta), or on TPUs which benefit from having sequence lengths be a multiple of 128. -
return_attention_mask (
bool
, optional) — Whether to return the attention mask. If left to the default, will return the attention mask according to the specific feature_extractor’s default. -
return_tensors (
str
or TensorType, optional) — If set, will return tensors instead of list of python integers. Acceptable values are:'tf'
: Return TensorFlowtf.constant
objects.'pt'
: Return PyTorchtorch.Tensor
objects.'np'
: Return Numpynp.ndarray
objects.
Pad input values / input vectors or a batch of input values / input vectors up to predefined length or to the max sequence length in the batch.
Padding side (left/right) padding values are defined at the feature extractor level (with self.padding_side
,
self.padding_value
)
If the processed_features
passed are dictionary of numpy arrays, PyTorch tensors or TensorFlow tensors, the
result will use the same type unless you provide a different tensor type with return_tensors
. In the case of
PyTorch tensors, you will lose the specific device of your tensors however.
BatchFeature
class transformers.BatchFeature
< source >( data: typing.Union[typing.Dict[str, typing.Any], NoneType] = None tensor_type: typing.Union[NoneType, str, transformers.utils.generic.TensorType] = None )
Parameters
Holds the output of the pad() and feature extractor specific __call__
methods.
This class is derived from a python dictionary and can be used as a dictionary.
convert_to_tensors
< source >( tensor_type: typing.Union[str, transformers.utils.generic.TensorType, NoneType] = None )
Parameters
-
tensor_type (
str
or TensorType, optional) — The type of tensors to use. Ifstr
, should be one of the values of the enum TensorType. IfNone
, no modification is done.
Convert the inner content to tensors.
to
< source >( *args **kwargs ) → BatchFeature
Send all values to device by calling v.to(*args, **kwargs)
(PyTorch only). This should support casting in
different dtypes
and sending the BatchFeature
to a different device
.
ImageFeatureExtractionMixin
Mixin that contain utilities for preparing image features.
center_crop
< source >( image size ) → new_image
Parameters
-
image (
PIL.Image.Image
ornp.ndarray
ortorch.Tensor
of shape (n_channels, height, width) or (height, width, n_channels)) — The image to resize. -
size (
int
orTuple[int, int]
) — The size to which crop the image.
Returns
new_image
A center cropped PIL.Image.Image
or np.ndarray
or torch.Tensor
of shape: (n_channels,
height, width).
Crops image
to the given size using a center crop. Note that if the image is too small to be cropped to the
size given, it will be padded (so the returned result has the size asked).
Converts PIL.Image.Image
to RGB format.
expand_dims
< source >( image )
Expands 2-dimensional image
to 3 dimensions.
flip_channel_order
< source >( image )
Flips the channel order of image
from RGB to BGR, or vice versa. Note that this will trigger a conversion of
image
to a NumPy array if it’s a PIL Image.
normalize
< source >( image mean std rescale = False )
Parameters
-
image (
PIL.Image.Image
ornp.ndarray
ortorch.Tensor
) — The image to normalize. -
mean (
List[float]
ornp.ndarray
ortorch.Tensor
) — The mean (per channel) to use for normalization. -
std (
List[float]
ornp.ndarray
ortorch.Tensor
) — The standard deviation (per channel) to use for normalization. -
rescale (
bool
, optional, defaults toFalse
) — Whether or not to rescale the image to be between 0 and 1. If a PIL image is provided, scaling will happen automatically.
Normalizes image
with mean
and std
. Note that this will trigger a conversion of image
to a NumPy array
if it’s a PIL Image.
Rescale a numpy image by scale amount
resize
< source >( image size resample = None default_to_square = True max_size = None ) → image
Parameters
-
image (
PIL.Image.Image
ornp.ndarray
ortorch.Tensor
) — The image to resize. -
size (
int
orTuple[int, int]
) — The size to use for resizing the image. Ifsize
is a sequence like (h, w), output size will be matched to this.If
size
is an int anddefault_to_square
isTrue
, then image will be resized to (size, size). Ifsize
is an int anddefault_to_square
isFalse
, then smaller edge of the image will be matched to this number. i.e, if height > width, then image will be rescaled to (size * height / width, size). -
resample (
int
, optional, defaults toPILImageResampling.BILINEAR
) — The filter to user for resampling. -
default_to_square (
bool
, optional, defaults toTrue
) — How to convertsize
when it is a single int. If set toTrue
, thesize
will be converted to a square (size
,size
). If set toFalse
, will replicatetorchvision.transforms.Resize
with support for resizing only the smallest edge and providing an optionalmax_size
. -
max_size (
int
, optional, defaults toNone
) — The maximum allowed for the longer edge of the resized image: if the longer edge of the image is greater thanmax_size
after being resized according tosize
, then the image is resized again so that the longer edge is equal tomax_size
. As a result,size
might be overruled, i.e the smaller edge may be shorter thansize
. Only used ifdefault_to_square
isFalse
.
Returns
image
A resized PIL.Image.Image
.
Resizes image
. Enforces conversion of input to PIL.Image.
rotate
< source >( image angle resample = None expand = 0 center = None translate = None fillcolor = None ) → image
Returns a rotated copy of image
. This method returns a copy of image
, rotated the given number of degrees
counter clockwise around its centre.
to_numpy_array
< source >( image rescale = None channel_first = True )
Parameters
-
image (
PIL.Image.Image
ornp.ndarray
ortorch.Tensor
) — The image to convert to a NumPy array. -
rescale (
bool
, optional) — Whether or not to apply the scaling factor (to make pixel values floats between 0. and 1.). Will default toTrue
if the image is a PIL Image or an array/tensor of integers,False
otherwise. -
channel_first (
bool
, optional, defaults toTrue
) — Whether or not to permute the dimensions of the image to put the channel dimension first.
Converts image
to a numpy array. Optionally rescales it and puts the channel dimension as the first
dimension.
to_pil_image
< source >( image rescale = None )
Parameters
-
image (
PIL.Image.Image
ornumpy.ndarray
ortorch.Tensor
) — The image to convert to the PIL Image format. -
rescale (
bool
, optional) — Whether or not to apply the scaling factor (to make pixel values integers between 0 and 255). Will default toTrue
if the image type is a floating type,False
otherwise.
Converts image
to a PIL Image. Optionally rescales it and puts the channel dimension back as the last axis if
needed.