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Represents a sparse tensor.
tf.sparse.SparseTensor( indices, values, dense_shape )
TensorFlow represents a sparse tensor as three separate dense tensors: indices
, values
, and dense_shape
. In Python, the three tensors are collected into a SparseTensor
class for ease of use. If you have separate indices
, values
, and dense_shape
tensors, wrap them in a SparseTensor
object before passing to the ops below.
Concretely, the sparse tensor SparseTensor(indices, values, dense_shape)
comprises the following components, where N
and ndims
are the number of values and number of dimensions in the SparseTensor
, respectively:
indices
: A 2-D int64 tensor of shape [N, ndims]
, which specifies the indices of the elements in the sparse tensor that contain nonzero values (elements are zero-indexed). For example, indices=[[1,3], [2,4]]
specifies that the elements with indexes of [1,3] and [2,4] have nonzero values.
values
: A 1-D tensor of any type and shape [N]
, which supplies the values for each element in indices
. For example, given indices=[[1,3], [2,4]]
, the parameter values=[18, 3.6]
specifies that element [1,3] of the sparse tensor has a value of 18, and element [2,4] of the tensor has a value of 3.6.
dense_shape
: A 1-D int64 tensor of shape [ndims]
, which specifies the dense_shape of the sparse tensor. Takes a list indicating the number of elements in each dimension. For example, dense_shape=[3,6]
specifies a two-dimensional 3x6 tensor, dense_shape=[2,3,4]
specifies a three-dimensional 2x3x4 tensor, and dense_shape=[9]
specifies a one-dimensional tensor with 9 elements.
The corresponding dense tensor satisfies:
dense.shape = dense_shape dense[tuple(indices[i])] = values[i]
By convention, indices
should be sorted in row-major order (or equivalently lexicographic order on the tuples indices[i]
). This is not enforced when SparseTensor
objects are constructed, but most ops assume correct ordering. If the ordering of sparse tensor st
is wrong, a fixed version can be obtained by calling tf.sparse.reorder(st)
.
Example: The sparse tensor
SparseTensor(indices=[[0, 0], [1, 2]], values=[1, 2], dense_shape=[3, 4])
represents the dense tensor
[[1, 0, 0, 0] [0, 0, 2, 0] [0, 0, 0, 0]]
Args | |
---|---|
indices | A 2-D int64 tensor of shape [N, ndims] . |
values | A 1-D tensor of any type and shape [N] . |
dense_shape | A 1-D int64 tensor of shape [ndims] . |
Raises | |
---|---|
ValueError | When building an eager SparseTensor if dense_shape is unknown or contains unknown elements (None or -1). |
Attributes | |
---|---|
dense_shape | A 1-D Tensor of int64 representing the shape of the dense tensor. |
dtype | The DType of elements in this tensor. |
graph | The Graph that contains the index, value, and dense_shape tensors. |
indices | The indices of non-zero values in the represented dense tensor. |
op | The Operation that produces values as an output. |
shape | Get the TensorShape representing the shape of the dense tensor. |
values | The non-zero values in the represented dense tensor. |
consumers
consumers()
eval
eval( feed_dict=None, session=None )
Evaluates this sparse tensor in a Session
.
Calling this method will execute all preceding operations that produce the inputs needed for the operation that produces this tensor.
Note: Before invokingSparseTensor.eval()
, its graph must have been launched in a session, and either a default session must be available, orsession
must be specified explicitly.
Args | |
---|---|
feed_dict | A dictionary that maps Tensor objects to feed values. See tf.Session.run for a description of the valid feed values. |
session | (Optional.) The Session to be used to evaluate this sparse tensor. If none, the default session will be used. |
Returns | |
---|---|
A SparseTensorValue object. |
from_value
@classmethod from_value( sparse_tensor_value )
get_shape
get_shape()
Get the TensorShape
representing the shape of the dense tensor.
Returns | |
---|---|
A TensorShape object. |
__div__
__div__( sp_x, y )
Component-wise divides a SparseTensor by a dense Tensor.
Limitation: this Op only broadcasts the dense side to the sparse side, but not the other direction.
Args | |
---|---|
sp_indices | A Tensor of type int64 . 2-D. N x R matrix with the indices of non-empty values in a SparseTensor, possibly not in canonical ordering. |
sp_values | A Tensor . Must be one of the following types: float32 , float64 , int32 , uint8 , int16 , int8 , complex64 , int64 , qint8 , quint8 , qint32 , bfloat16 , uint16 , complex128 , half , uint32 , uint64 . 1-D. N non-empty values corresponding to sp_indices . |
sp_shape | A Tensor of type int64 . 1-D. Shape of the input SparseTensor. |
dense | A Tensor . Must have the same type as sp_values . R -D. The dense Tensor operand. |
name | A name for the operation (optional). |
Returns | |
---|---|
A Tensor . Has the same type as sp_values . |
__mul__
__mul__( sp_x, y )
Component-wise multiplies a SparseTensor by a dense Tensor.
The output locations corresponding to the implicitly zero elements in the sparse tensor will be zero (i.e., will not take up storage space), regardless of the contents of the dense tensor (even if it's +/-INF and that INF*0 == NaN).
Limitation: this Op only broadcasts the dense side to the sparse side, but not the other direction.
Args | |
---|---|
sp_indices | A Tensor of type int64 . 2-D. N x R matrix with the indices of non-empty values in a SparseTensor, possibly not in canonical ordering. |
sp_values | A Tensor . Must be one of the following types: float32 , float64 , int32 , uint8 , int16 , int8 , complex64 , int64 , qint8 , quint8 , qint32 , bfloat16 , uint16 , complex128 , half , uint32 , uint64 . 1-D. N non-empty values corresponding to sp_indices . |
sp_shape | A Tensor of type int64 . 1-D. Shape of the input SparseTensor. |
dense | A Tensor . Must have the same type as sp_values . R -D. The dense Tensor operand. |
name | A name for the operation (optional). |
Returns | |
---|---|
A Tensor . Has the same type as sp_values . |
__truediv__
__truediv__( sp_x, y )
Internal helper function for 'sp_t / dense_t'.
© 2020 The TensorFlow Authors. All rights reserved.
Licensed under the Creative Commons Attribution License 3.0.
Code samples licensed under the Apache 2.0 License.
https://www.tensorflow.org/versions/r2.3/api_docs/python/tf/sparse/SparseTensor