71

I have a dataset represented as a NumPy matrix of shape (num_features, num_examples) and I wish to convert it to TensorFlow type tf.Dataset.

I am struggling trying to understand the difference between these two methods: Dataset.from_tensors and Dataset.from_tensor_slices. What is the right one and why?

TensorFlow documentation (link) says that both method accept a nested structure of tensor although when using from_tensor_slices the tensor should have same size in the 0-th dimension.

81

from_tensors combines the input and returns a dataset with a single element:

>>> t = tf.constant([[1, 2], [3, 4]])
>>> ds = tf.data.Dataset.from_tensors(t)
>>> [x for x in ds]
[<tf.Tensor: shape=(2, 2), dtype=int32, numpy=
 array([[1, 2],
        [3, 4]], dtype=int32)>]

from_tensor_slices creates a dataset with a separate element for each row of the input tensor:

>>> t = tf.constant([[1, 2], [3, 4]])
>>> ds = tf.data.Dataset.from_tensor_slices(t)
>>> [x for x in ds]
[<tf.Tensor: shape=(2,), dtype=int32, numpy=array([1, 2], dtype=int32)>,
 <tf.Tensor: shape=(2,), dtype=int32, numpy=array([3, 4], dtype=int32)>]
3
  • 35
    @MathewScarpino: can you elaborate more on when to use when? – dhiraj suvarna Aug 18 '18 at 7:50
  • 4
    I think the source of confusion (at least for it was), is the name. Since the from_tensor_slices creates slices from the original data...the ideal name should have been "to_tensor_slices" - Because you are taking your data and create tensor slices out of it. Once you think along those lines all documentation from TF2 became very clear for me ! – HopeKing Jun 18 '20 at 9:08
  • 1
    A key piece of info for me that was absent from the docs was that multiple tensors are passed to these methods as a tuple, e.g. from_tensors((t1,t2,t3,)). With that knowledge, from_tensors makes a dataset where each input tensor is like a row of your dataset, and from_tensor_slices makes a dataset where each input tensor is column of your data; so in the latter case all tensors must be the same length, and the elements (rows) of the resulting dataset are tuples with one element from each column. – user1488777 Jul 31 '20 at 8:52
15

1) Main difference between the two is that nested elements in from_tensor_slices must have the same dimension in 0th rank:

# exception: ValueError: Dimensions 10 and 9 are not compatible
dataset1 = tf.data.Dataset.from_tensor_slices(
    (tf.random_uniform([10, 4]), tf.random_uniform([9])))
# OK, first dimension is same
dataset2 = tf.data.Dataset.from_tensors(
    (tf.random_uniform([10, 4]), tf.random_uniform([10])))

2) The second difference, explained here, is when the input to a tf.Dataset is a list. For example:

dataset1 = tf.data.Dataset.from_tensor_slices(
    [tf.random_uniform([2, 3]), tf.random_uniform([2, 3])])

dataset2 = tf.data.Dataset.from_tensors(
    [tf.random_uniform([2, 3]), tf.random_uniform([2, 3])])

print(dataset1) # shapes: (2, 3)
print(dataset2) # shapes: (2, 2, 3)

In the above, from_tensors creates a 3D tensor while from_tensor_slices merge the input tensor. This can be handy if you have different sources of different image channels and want to concatenate them into a one RGB image tensor.

3) A mentioned in the previous answer, from_tensors convert the input tensor into one big tensor:

import tensorflow as tf

tf.enable_eager_execution()

dataset1 = tf.data.Dataset.from_tensor_slices(
    (tf.random_uniform([4, 2]), tf.random_uniform([4])))

dataset2 = tf.data.Dataset.from_tensors(
    (tf.random_uniform([4, 2]), tf.random_uniform([4])))

for i, item in enumerate(dataset1):
    print('element: ' + str(i + 1), item[0], item[1])

print(30*'-')

for i, item in enumerate(dataset2):
    print('element: ' + str(i + 1), item[0], item[1])

output:

element: 1 tf.Tensor(... shapes: ((2,), ()))
element: 2 tf.Tensor(... shapes: ((2,), ()))
element: 3 tf.Tensor(... shapes: ((2,), ()))
element: 4 tf.Tensor(... shapes: ((2,), ()))
-------------------------
element: 1 tf.Tensor(... shapes: ((4, 2), (4,)))
1
  • PS: It should be tf.random.uniform not tf.random_uniform – J W Nov 25 '20 at 14:20
10

I think @MatthewScarpino clearly explained the differences between these two methods.

Here I try to describe the typical usage of these two methods:

  • from_tensors can be used to construct a larger dataset from several small datasets, i.e., the size (length) of the dataset becomes larger;

  • while from_tensor_slices can be used to combine different elements into one dataset, e.g., combine features and labels into one dataset (that's also why the 1st dimension of the tensors should be the same). That is, the dataset becomes "wider".

8

Try this :

import tensorflow as tf  # 1.13.1
tf.enable_eager_execution()

t1 = tf.constant([[11, 22], [33, 44], [55, 66]])

print("\n=========     from_tensors     ===========")
ds = tf.data.Dataset.from_tensors(t1)
print(ds.output_types, end=' : ')
print(ds.output_shapes)
for e in ds:
    print (e)

print("\n=========   from_tensor_slices    ===========")
ds = tf.data.Dataset.from_tensor_slices(t1)
print(ds.output_types, end=' : ')
print(ds.output_shapes)
for e in ds:
    print (e)

output :

=========      from_tensors    ===========
<dtype: 'int32'> : (3, 2)
tf.Tensor(
[[11 22]
 [33 44]
 [55 66]], shape=(3, 2), dtype=int32)

=========   from_tensor_slices      ===========
<dtype: 'int32'> : (2,)
tf.Tensor([11 22], shape=(2,), dtype=int32)
tf.Tensor([33 44], shape=(2,), dtype=int32)
tf.Tensor([55 66], shape=(2,), dtype=int32)

The output is pretty much self-explanatory but as you can see, from_tensor_slices() slices the output of (what would be the output of) from_tensors() on its first dimension. You can also try with :

t1 = tf.constant([[[11, 22], [33, 44], [55, 66]],
                  [[110, 220], [330, 440], [550, 660]]])
1
  • with tf 2 i get: AttributeError: 'TensorDataset' object has no attribute 'output_types' – Ray Tayek Dec 15 '19 at 21:01

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