I found that Tensorflow provides scatter_update() to assign values to the slice of a tensor in the 0 dimension. For example, if the tensor T is three dimensional, I can assign value v[1, :, :] to T[i, :, :].

a = tf.Variable(tf.zeros([10,36,36]))   
value = np.ones([1,36,36])   
d = tf.scatter_update(a,[0],value)

with tf.Session() as sess:
    print a.eval()
    print a.eval()

But how to assign values v[1,1,:] to T[i,j,:]?

a = tf.Variable(tf.zeros([10,36,36]))   
value1 = np.random.randn(1,1,36)    
e = tf.scatter_update(a,[0],value1) #Error

with tf.Session() as sess:
    print a.eval()
    print a.eval()

Is there any other function that TF provide or a simple way to do this?


I believe what you need is the assign_slice_update discussed in ticket #206. It is not yet available, though.

UPDATE: This is now implemented. See jdehesa's answer: https://stackoverflow.com/a/43139565/6531137

Until assign_slice_update (or scatter_nd()) is available, you could build a block of the desired row containing the values you don't want to modify along with the desired values to update, like so:

import tensorflow as tf

a = tf.Variable(tf.ones([10,36,36]))

i = 3
j = 5

# Gather values inside the a[i,...] block that are not on column j
idx_before = tf.concat(1, [tf.reshape(tf.tile(tf.Variable([i]), [j]), [-1, 1]), tf.reshape(tf.range(j), [-1, 1])])
values_before = tf.gather_nd(a, idx_before)
idx_after = tf.concat(1, [tf.reshape(tf.tile(tf.Variable([i]), [36-j-1]), [-1, 1]), tf.reshape(tf.range(j+1, 36), [-1, 1])])
values_after = tf.gather_nd(a, idx_after)

# Build a subset of tensor `a` with the values that should not be touched and the values to update
block = tf.concat(0, [values_before, 5*tf.ones([1, 36]), values_after])

d = tf.scatter_update(a, i, block)

with tf.Session() as sess:
    print(a.eval()[3,4:7,:]) # Print a subset of the tensor to verify

The example generate a tensor of ones and performs a[i,j,:] = 5. Most of the complexity lies into getting the values that we don't want to modify, a[i,~j,:] (otherwise scatter_update() will replace those values).

If you want to perform T[i,k,:] = a[1,1,:] as you asked, you need to replace 5*tf.ones([1, 36]) in the previous example by tf.gather_nd(a, [[1, 1]]).

Another approach would be to create a mask to tf.select() the desired elements from it and assign it back to the variable, as such:

import tensorflow as tf

a = tf.Variable(tf.zeros([10,36,36]))

i = tf.Variable([3])
j = tf.Variable([5])

# Build a mask using indices to perform [i,j,:]
atleast_2d = lambda x: tf.reshape(x, [-1, 1])
indices = tf.concat(1, [atleast_2d(tf.tile(i, [36])), atleast_2d(tf.tile(j, [36])), atleast_2d(tf.range(36))])
mask = tf.cast(tf.sparse_to_dense(indices, [10, 36, 36], 1), tf.bool)

to_update = 5*tf.ones_like(a)
out = a.assign( tf.select(mask, to_update, a) ) 

with tf.Session() as sess:

It is potentially less efficient in terms of memory since it requires twice the memory to handle the a-like to_update variable, but you could easily modify this last example to get a gradient-preserving operation from the tf.select(...) node. You might also be interested in looking at this other StackOverflow question: Conditional assignment of tensor values in TensorFlow.

Those inelegant contortions should be replaced to a call to the proper TensorFlow function as it becomes available.

  • Thanks for the detailed example! As you said, the current way is somewhat inelegant. I hope assign_slice_update function available soon. – user270700 Aug 30 '16 at 4:24
  • 1
    tf.select has been replaced with tf.where in tensorflow 1. – Aloïs de La Comble Jan 20 '18 at 16:02
  • Is there a way to perform T[:,k,:] = a[:,1,:] where a may not necessarly be a variable. – Manish Madugula Sep 18 '18 at 8:14

Currently, you can do slice assignment for variables in TensorFlow. There is no specific named function for it, but you can select a slice and call assign on it:

my_var = my_var[4:8].assign(tf.zeros(4))

First, note that (after having looked at the documentation) it seems that the return value of assign, even when applied to a slice, is always a reference to the whole variable after applying the update.

EDIT: The information below is either deprecated, imprecise or was always wrong. The fact is that the returned value of assign is a tensor that can be readily used and already incorporates the dependency to the assignment, so simply evaluating that or using it in further operations will ensure it gets executed without need for an explicit tf.control_dependencies block.

Note, also, that this will only add the assignment op to the graph, but will not run it unless it is explicitly executed or set as a dependency of some other operation. A good practice is to use it in a tf.control_dependencies context:

with tf.control_dependencies([my_var[4:8].assign(tf.zeros(4))]):
    my_var = tf.identity(my_var)

You can read more about it in TensorFlow issue #4638.

  • I know this is an old topic, but I am currently trying to use this and am getting an error that gradients are not defined for this operation. (LookupError: No gradient defined for operation 'strided_slice/_assign' (op type: StridedSliceAssign). Do you happen to know of any workarounds for that? Or the analogous "scatter_*" operation that would have gradients defined? – Wayne Treible Apr 9 '18 at 22:19
  • @WayneTreible Assign operations do not have gradients, indeed. If what you want is to replace some particular values in a tensor for some computation you have to manually construct the whole tensor. Here are a couple of examples: using concatenations and using a mask. If these don't work for you maybe you can post a full question with more details about your case and some code (feel free to link it here later). – jdehesa Apr 10 '18 at 9:03
  • Hey, jdehesa. I posted my question with some more info over here -> stackoverflow.com/questions/49755316/… Thanks for the advice, I'll continue to work on a solution in the meantime. – Wayne Treible Apr 10 '18 at 13:47

The tf.scatter_update can modify the tensor in the first dimension. As stated in the documentation,

indices: A Tensor. Must be one of the following types: int32, int64. A tensor of indices into the first dimension of ref.

You can use scatter_nd_update function to do what you want. As shown below, which I have tested.

a = tf.Variable(tf.zeros([10,36,36])) 
value1 = np.random.randn(1,36)
e = tf.scatter_nd_update(a,[[0,1]],value1)
init= tf.global_variables_initializer()
  • 4
    This answer isn't incorrect, but there is an important caviat: as Tensors are not Variables (I know the OP was using variables), when someone tries to use this method to update a Tensor, it is susceptible to the error: AttributeError: 'Tensor' object has no attribute '_lazy_read' – physincubus Aug 9 '18 at 7:17

Answer for TF2:

Unfortunately, there is still no elegant way to do this in Tensorflow 2 (TF2).

The best way I found was to unstack assign and then restack:

x = tf.random.uniform(shape=(5,))
new_val = 7
y = tf.unstack(x)
y[2] = new_val
x_updated = tf.stack(y)

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.