TensorFlow 1 version | View source on GitHub |
Abstract object representing an RNN cell.
tf.keras.layers.AbstractRNNCell(
trainable=True, name=None, dtype=None, dynamic=False, **kwargs
)
See the Keras RNN API guide for details about the usage of RNN API.
This is the base class for implementing RNN cells with custom behavior.
Every RNNCell
must have the properties below and implement call
with
the signature (output, next_state) = call(input, state)
.
Examples:
class MinimalRNNCell(AbstractRNNCell):
def __init__(self, units, **kwargs):
self.units = units
super(MinimalRNNCell, self).__init__(**kwargs)
@property
def state_size(self):
return self.units
def build(self, input_shape):
self.kernel = self.add_weight(shape=(input_shape[-1], self.units),
initializer='uniform',
name='kernel')
self.recurrent_kernel = self.add_weight(
shape=(self.units, self.units),
initializer='uniform',
name='recurrent_kernel')
self.built = True
def call(self, inputs, states):
prev_output = states[0]
h = K.dot(inputs, self.kernel)
output = h + K.dot(prev_output, self.recurrent_kernel)
return output, output
This definition of cell differs from the definition used in the literature. In the literature, 'cell' refers to an object with a single scalar output. This definition refers to a horizontal array of such units.
An RNN cell, in the most abstract setting, is anything that has
a state and performs some operation that takes a matrix of inputs.
This operation results in an output matrix with self.output_size
columns.
If self.state_size
is an integer, this operation also results in a new
state matrix with self.state_size
columns. If self.state_size
is a
(possibly nested tuple of) TensorShape object(s), then it should return a
matching structure of Tensors having shape [batch_size].concatenate(s)
for each s
in self.batch_size
.
Attributes | |
---|---|
output_size
|
Integer or TensorShape: size of outputs produced by this cell. |
state_size
|
size(s) of state(s) used by this cell.
It can be represented by an Integer, a TensorShape or a tuple of Integers or TensorShapes. |
Methods
get_initial_state
get_initial_state(
inputs=None, batch_size=None, dtype=None
)