How to convert a tensor into a numpy array when using Tensorflow with Python bindings?
12 Answers
TensorFlow 2.x
Eager Execution is enabled by default, so just call .numpy()
on the Tensor object.
import tensorflow as tf
a = tf.constant([[1, 2], [3, 4]])
b = tf.add(a, 1)
a.numpy()
# array([[1, 2],
# [3, 4]], dtype=int32)
b.numpy()
# array([[2, 3],
# [4, 5]], dtype=int32)
tf.multiply(a, b).numpy()
# array([[ 2, 6],
# [12, 20]], dtype=int32)
See NumPy Compatibility for more. It is worth noting (from the docs),
Numpy array may share a memory with the Tensor object. Any changes to one may be reflected in the other.
Bold emphasis mine. A copy may or may not be returned, and this is an implementation detail based on whether the data is in CPU or GPU (in the latter case, a copy has to be made from GPU to host memory).
But why am I getting the AttributeError: 'Tensor' object has no attribute 'numpy'
?.
A lot of folks have commented about this issue, there are a couple of possible reasons:
 TF 2.0 is not correctly installed (in which case, try reinstalling), or
 TF 2.0 is installed, but eager execution is disabled for some reason. In such cases, call
tf.compat.v1.enable_eager_execution()
to enable it, or see below.
If Eager Execution is disabled, you can build a graph and then run it through tf.compat.v1.Session
:
a = tf.constant([[1, 2], [3, 4]])
b = tf.add(a, 1)
out = tf.multiply(a, b)
out.eval(session=tf.compat.v1.Session())
# array([[ 2, 6],
# [12, 20]], dtype=int32)
See also TF 2.0 Symbols Map for a mapping of the old API to the new one.

13

32I get the following error in TF 2.0: "'Tensor' object has no attribute 'numpy'"– Will.EvoDec 16, 2019 at 16:34

14No I did not disable eager execution. Still get AttributeError: 'Tensor' object has no attribute 'numpy' Feb 12, 2020 at 19:36

6why do I get an AttributeError: 'Tensor' object has no attribute 'numpy' Aug 7, 2020 at 9:58

3I use Tensorflow 2.x, eager execution is enabled and still my tensor is a Tensor and not an EagerTensor and .numpy() does not work.– PascalIvJan 29, 2021 at 10:35
Any tensor returned by Session.run
or eval
is a NumPy array.
>>> print(type(tf.Session().run(tf.constant([1,2,3]))))
<class 'numpy.ndarray'>
Or:
>>> sess = tf.InteractiveSession()
>>> print(type(tf.constant([1,2,3]).eval()))
<class 'numpy.ndarray'>
Or, equivalently:
>>> sess = tf.Session()
>>> with sess.as_default():
>>> print(type(tf.constant([1,2,3]).eval()))
<class 'numpy.ndarray'>
EDIT: Not any tensor returned by Session.run
or eval()
is a NumPy array. Sparse Tensors for example are returned as SparseTensorValue:
>>> print(type(tf.Session().run(tf.SparseTensor([[0, 0]],[1],[1,2]))))
<class 'tensorflow.python.framework.sparse_tensor.SparseTensorValue'>

6

If eval alone suffices, what is the reason for having Session.run or InteractiveSession in all of these options?– CephJul 24, 2020 at 17:21

1@Ceph If you run without a session, you get the following error:
ValueError: Cannot evaluate tensor using 'eval()': No default session is registered. Use 'with sess.as_default()' or pass an explicit session to 'eval(session=sess)'
May 13, 2021 at 15:33
To convert back from tensor to numpy array you can simply run .eval()
on the transformed tensor.

6

24I get
ValueError: Cannot evaluate tensor using 'eval()': No default session is registered. Use 'with sess.as_default()' or pass an explicit session to 'eval(session=sess)'
Is this usable only during a tensoflow session? Apr 26, 2018 at 11:16 
@EduardoPignatelli It works for me in Theano with no extra work. Not sure about tf. May 9, 2018 at 15:27

6@EduardoPignatelli you need to run the
.eval()
method call from inside a session:sess = tf.Session(); with sess.as_default(): print(my_tensor.eval())
– duhaimeOct 23, 2018 at 15:16 
1
Regarding Tensorflow 2.x
The following generally works, since eager execution is activated by default:
import tensorflow as tf
a = tf.constant([[1, 2], [3, 4]])
b = tf.add(a, 1)
print(a.numpy())
# [[1 2]
# [3 4]]
However, since a lot of people seem to be posting the error:
AttributeError: 'Tensor' object has no attribute 'numpy'
I think it is fair to mention that calling tensor.numpy()
in graph mode will not work. That is why you are seeing this error. Here is a simple example:
import tensorflow as tf
@tf.function
def add():
a = tf.constant([[1, 2], [3, 4]])
b = tf.add(a, 1)
tf.print(a.numpy()) # throws an error!
return a
add()
A simple explanation can be found here:
Fundamentally, one cannot convert a graph tensor to numpy array because the graph does not execute in Python  so there is no NumPy at graph execution. [...]
It is also worth taking a look at the TF docs.
Regarding Keras models with Tensorflow 2.x
This also applies to Keras
models, which are wrapped in a tf.function
by default. If you really need to run tensor.numpy()
, you can set the parameter run_eagerly=True
in model.compile(*)
, but this will influence the performance of your model.
You need to:
 encode the image tensor in some format (jpeg, png) to binary tensor
 evaluate (run) the binary tensor in a session
 turn the binary to stream
 feed to PIL image
 (optional) displaythe image with matplotlib
Code:
import tensorflow as tf
import matplotlib.pyplot as plt
import PIL
...
image_tensor = <your decoded image tensor>
jpeg_bin_tensor = tf.image.encode_jpeg(image_tensor)
with tf.Session() as sess:
# display encoded back to image data
jpeg_bin = sess.run(jpeg_bin_tensor)
jpeg_str = StringIO.StringIO(jpeg_bin)
jpeg_image = PIL.Image.open(jpeg_str)
plt.imshow(jpeg_image)
This worked for me. You can try it in a ipython notebook. Just don't forget to add the following line:
%matplotlib inline
Maybe you can try，this method:
import tensorflow as tf
W1 = tf.Variable(tf.random_uniform([1], 1.0, 1.0))
init = tf.global_variables_initializer()
sess = tf.Session()
sess.run(init)
array = W1.eval(sess)
print (array)
I have faced and solved the tensor>ndarray conversion in the specific case of tensors representing (adversarial) images, obtained with cleverhans library/tutorials.
I think that my question/answer (here) may be an helpful example also for other cases.
I'm new with TensorFlow, mine is an empirical conclusion:
It seems that tensor.eval() method may need, in order to succeed, also the value for input placeholders.
Tensor may work like a function that needs its input values (provided into feed_dict
) in order to return an output value, e.g.
array_out = tensor.eval(session=sess, feed_dict={x: x_input})
Please note that the placeholder name is x in my case, but I suppose you should find out the right name for the input placeholder.
x_input
is a scalar value or array containing input data.
In my case also providing sess
was mandatory.
My example also covers the matplotlib image visualization part, but this is OT.
I was searching for days for this command.
This worked for me outside any session or somthing like this.
# you get an array = your tensor.eval(session=tf.compat.v1.Session())
an_array = a_tensor.eval(session=tf.compat.v1.Session())
https://kite.com/python/answers/howtoconvertatensorflowtensortoanumpyarrayinpython
You can use keras backend function.
import tensorflow as tf
from tensorflow.python.keras import backend
sess = backend.get_session()
array = sess.run(< Tensor >)
print(type(array))
<class 'numpy.ndarray'>
I hope it helps!
You can convert a tensor in tensorflow
to numpy
array in the following ways.
First:
Use np.array(your_tensor)
Second:
Use your_tensor.numpy

4np.array(your_tensor) didnot work. NotImplementedError: Cannot convert a symbolic Tensor (truediv:0) to a numpy array. This error may indicate that you're trying to pass a Tensor to a NumPy call, which is not supported Mar 30, 2021 at 9:22

A simple example could be,
import tensorflow as tf
import numpy as np
a=tf.random_normal([2,3],0.0,1.0,dtype=tf.float32) #sampling from a std normal
print(type(a))
#<class 'tensorflow.python.framework.ops.Tensor'>
tf.InteractiveSession() # run an interactive session in Tf.
n now if we want this tensor a to be converted into a numpy array
a_np=a.eval()
print(type(a_np))
#<class 'numpy.ndarray'>
As simple as that!
If you see there is a method _numpy(), e.g for an EagerTensor simply call the above method and you will get an ndarray.