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A CategoricalColumn
that returns identity values. (deprecated)
tf.feature_column.categorical_column_with_identity(
key, num_buckets, default_value=None
)
Use this when your inputs are integers in the range [0, num_buckets)
, and
you want to use the input value itself as the categorical ID. Values outside
this range will result in default_value
if specified, otherwise it will
fail.
Typically, this is used for contiguous ranges of integer indexes, but
it doesn't have to be. This might be inefficient, however, if many of IDs
are unused. Consider categorical_column_with_hash_bucket
in that case.
For input dictionary features
, features[key]
is either Tensor
or
SparseTensor
. If Tensor
, missing values can be represented by -1
for int
and ''
for string, which will be dropped by this feature column.
In the following examples, each input in the range [0, 1000000)
is assigned
the same value. All other inputs are assigned default_value
0. Note that a
literal 0 in inputs will result in the same default ID.
Linear model:
import tensorflow as tf
video_id = tf.feature_column.categorical_column_with_identity(
key='video_id', num_buckets=1000000, default_value=0)
columns = [video_id]
features = {'video_id': tf.sparse.from_dense([[2, 85, 0, 0, 0],
[33,78, 2, 73, 1]])}
linear_prediction = tf.compat.v1.feature_column.linear_model(features,
columns)
Embedding for a DNN model:
import tensorflow as tf
video_id = tf.feature_column.categorical_column_with_identity(
key='video_id', num_buckets=1000000, default_value=0)
columns = [tf.feature_column.embedding_column(video_id, 9)]
features = {'video_id': tf.sparse.from_dense([[2, 85, 0, 0, 0],
[33,78, 2, 73, 1]])}
input_layer = tf.keras.layers.DenseFeatures(columns)
dense_tensor = input_layer(features)
Returns | |
---|---|
A CategoricalColumn that returns identity values.
|
Raises | |
---|---|
ValueError
|
if num_buckets is less than one.
|
ValueError
|
if default_value is not in range [0, num_buckets) .
|