This class is meant to be used with dynamic iteration primitives such as
while_loop and map_fn. It supports gradient back-propagation via special
"flow" control flow dependencies.
Example 2: Fibonacci sequence algorithm that writes in a loop then returns.
@tf.functiondef fibonacci(n): ta = tf.TensorArray(tf.float32, size=0, dynamic_size=True) ta = ta.unstack([0., 1.]) for i in range(2, n): ta = ta.write(i, ta.read(i - 1) + ta.read(i - 2)) return ta.stack()fibonacci(7)<tf.Tensor: shape=(7,), dtype=float32,numpy=array([0., 1., 1., 2., 3., 5., 8.], dtype=float32)>
Example 3: A simple loop interacting with a tf.Variable.
v = tf.Variable(1)@tf.functiondef f(x): ta = tf.TensorArray(tf.int32, size=0, dynamic_size=True) for i in tf.range(x): v.assign_add(i) ta = ta.write(i, v) return ta.stack()f(5)<tf.Tensor: shape=(5,), dtype=int32, numpy=array([ 1, 2, 4, 7, 11],dtype=int32)>
Args
dtype
(required) data type of the TensorArray.
size
(optional) int32 scalar Tensor: the size of the TensorArray.
Required if handle is not provided.
dynamic_size
(optional) Python bool: If true, writes to the TensorArray
can grow the TensorArray past its initial size. Default: False.
clear_after_read
Boolean (optional, default: True). If True, clear
TensorArray values after reading them. This disables read-many
semantics, but allows early release of memory.
tensor_array_name
(optional) Python string: the name of the TensorArray.
This is used when creating the TensorArray handle. If this value is
set, handle should be None.
handle
(optional) A Tensor handle to an existing TensorArray. If this
is set, tensor_array_name should be None. Only supported in graph mode.
flow
(optional) A float Tensor scalar coming from an existing
TensorArray.flow. Only supported in graph mode.
infer_shape
(optional, default: True) If True, shape inference
is enabled. In this case, all elements must have the same shape.
element_shape
(optional, default: None) A TensorShape object specifying
the shape constraints of each of the elements of the TensorArray.
Need not be fully defined.
colocate_with_first_write_call
If True, the TensorArray will be
colocated on the same device as the Tensor used on its first write
(write operations include write, unstack, and split). If False,
the TensorArray will be placed on the device determined by the
device context available during its initialization.
name
A name for the operation (optional).
Raises
ValueError
if both handle and tensor_array_name are provided.
TypeError
if handle is provided but is not a Tensor.
Attributes
dtype
The data type of this TensorArray.
dynamic_size
Python bool; if True the TensorArray can grow dynamically.
Returns a TensorArray with the same content and properties.
Returns
A new TensorArray object with flow that ensures the control dependencies
from the contexts will become control dependencies for writes, reads, etc.
Use this object for all subsequent operations.
[[["Easy to understand","easyToUnderstand","thumb-up"],["Solved my problem","solvedMyProblem","thumb-up"],["Other","otherUp","thumb-up"]],[["Missing the information I need","missingTheInformationINeed","thumb-down"],["Too complicated / too many steps","tooComplicatedTooManySteps","thumb-down"],["Out of date","outOfDate","thumb-down"],["Samples / code issue","samplesCodeIssue","thumb-down"],["Other","otherDown","thumb-down"]],["Last updated 2021-05-14 UTC."],[],[]]