# Is there a way to call a Numpy function inside a TensorFlow session?

I am trying to implement a Expectation Maximization algorithm using TensorFlow and TensorFlow Probability. It worked very well until I tried to implement Missing Data (data can contain NaN values in some random dimensions).

The problem is that with Missing Data I can no longer do all the operations as vector operations, I have to work with indexing and for-loops, like this:

``````    # Here we iterate through all the data samples
for i in range(n):
# x_i is the sample i
x_i = tf.expand_dims(x[:, i], 1)
gamma.append(estimate_gamma(x_i, pi, norm, ber))
est_x_n_i = []
est_xx_n_i = []
est_x_b_i = []
for j in range(k):
mu_k = norm.mean()[j, :]
sigma_k = norm.covariance()[j, :, :]
rho_k = ber.mean()[j, :]
est_x_n_i.append(estimate_x_norm(x_i[:d, :], mu_k, sigma_k))
est_xx_n_i.append(estimate_xx_norm(x_i[:d, :], mu_k, sigma_k))
est_x_b_i.append(estimate_x_ber(x_i[d:, :], rho_k))
est_x_n.append(tf.convert_to_tensor(est_x_n_i))
est_xx_n.append(tf.convert_to_tensor(est_xx_n_i))
est_x_b.append(tf.convert_to_tensor(est_x_b_i))
``````

What I found out was that these operations are not very efficient. While the first samples took about less than 1 second per sample, after 50 samples it took about 3 seconds per sample. I guess that this was happening because I was creating different tensors inside the session and that was messing up the memory or something.

I am quite new using TensorFlow and a lot of people only use TensorFlow for Deep Learning and Neural Networks so I couldn't find a solution for this.

Then I tried to implement the previous for-loop and the functions called inside that loop using only numpy arrays and numpy operations. But this returned the following error:

You must feed a value for placeholder tensor 'Placeholder_4' with dtype double and shape [8,18]

This error happens because when it tries to execute the numpy functions inside the loop, the placeholder has not been fed yet.

``````pi_k, mu_k, sigma_k, rho_k, gamma_ik, exp_loglik = exp_max_iter(x, pi, dist_norm, dist_ber)
pi, mu, sigma, rho, responsability, NLL[i + 1] = sess.run([pi_k, mu_k, sigma_k, rho_k, gamma_ik, exp_loglik],{x: samples})
``````

Is there any way to solve this? Thanks.

• haven't really looked at you question in detail, but the title looks like you might want to check out `tf.py_func`? – teng Jul 27 '19 at 23:52
• @teng it seems like it could be useful, I will try it. – Iago González Rodríguez Jul 28 '19 at 4:09
• @teng I don't think is working correctly... Could you explain how to use it? The documentation and the examples is not very clear.... – Iago González Rodríguez Jul 28 '19 at 10:46
• The tf doc is indeed not very clear, if you still do decide to use `tf.py_func`, here is one working example github.com/Johswald/Bayesian-FlowNet/blob/master/flownet.py . In case you decide to migrate your code to pure tf, there should be methods in tf to help remove/ignore missing data - if you choose this route, search for solutions in SO and if you aren't able to solve it, you can create a new question. – teng Jul 28 '19 at 15:20
• Also, the current scope of the question is bit too broad, thus it is not getting too much attention. It would also help if you post some minimum (non-)working code with sample input data so that people can try to ticker with the code. – teng Jul 28 '19 at 15:21

To answer your title question "Is there a way to call a Numpy function inside a TensorFlow session?", I've put in place below some sample code to execute a "numpy function" (`sklearn.mixture.GaussianMixture`) given missing data by directly calling the function or via Tensorflow's `py_function`. I am sensing this may not 100% be what you are looking for... in the case that you are just trying to implement EM..? the existing implementation of Gaussian Mixture Model in Tensorflow may be of some help:

documentation on `tf.contrib.factorization.gmm`: https://www.tensorflow.org/api_docs/python/tf/contrib/factorization/gmm

Sample code to call a 'numpy function' directly and within Tensorflow graph:

``````import numpy as np
np.set_printoptions(2)
import tensorflow as tf
from sklearn.mixture import GaussianMixture as GMM

def myfunc(x,istf=True):
#strip nans
if istf:
else:
ind=np.where(~np.isnan(x))
x = x[ind]
x = np.expand_dims(x,axis=-1)
gmm = GMM(n_components=2)
gmm.fit(x)
m0,m1 = gmm.means_[:,0]
return np.array([m0,m1])
``````
``````# create data with nans
np.random.seed(42)
x = np.random.rand(5,28,1)
c = 5
x.ravel()[np.random.choice(x.size, c, replace=False)] = np.nan

# directly call "numpy function"
for ind in range(x.shape):
val = myfunc(x[ind,:],istf=False)
print(val)
``````
``````    [0.7  0.26]
[0.15 0.72]
[0.77 0.2 ]
[0.65 0.23]
[0.35 0.87]
``````
``````# initialization
sess = tf.InteractiveSession()
tf.global_variables_initializer().run()

# create graph
X = tf.placeholder(tf.float32, [28,1])
Y = tf.py_function(myfunc,[X],[tf.float32],name='myfunc')

# call "numpy function" in tensorflow graph
for ind in range(x.shape):
val = sess.run(Y, feed_dict={X: x[ind,:],})
print(val)
``````
``````    [array([0.29, 0.76], dtype=float32)]
[array([0.72, 0.15], dtype=float32)]
[array([0.77, 0.2 ], dtype=float32)]
[array([0.23, 0.65], dtype=float32)]
[array([0.35, 0.87], dtype=float32)]
``````