So far, I created a workaround by flattening the input and using `gather`

:

```
def gather_cols(params, indices, name=None):
"""Gather columns of a 2D tensor.
Args:
params: A 2D tensor.
indices: A 1D tensor. Must be one of the following types: ``int32``, ``int64``.
name: A name for the operation (optional).
Returns:
A 2D Tensor. Has the same type as ``params``.
"""
with tf.op_scope([params, indices], name, "gather_cols") as scope:
# Check input
params = tf.convert_to_tensor(params, name="params")
indices = tf.convert_to_tensor(indices, name="indices")
try:
params.get_shape().assert_has_rank(2)
except ValueError:
raise ValueError('\'params\' must be 2D.')
try:
indices.get_shape().assert_has_rank(1)
except ValueError:
raise ValueError('\'indices\' must be 1D.')
# Define op
p_shape = tf.shape(params)
p_flat = tf.reshape(params, [-1])
i_flat = tf.reshape(tf.reshape(tf.range(0, p_shape[0]) * p_shape[1],
[-1, 1]) + indices, [-1])
return tf.reshape(tf.gather(p_flat, i_flat),
[p_shape[0], -1])
```

Which for:

```
params = tf.constant([[1, 2, 3],
[4, 5, 6]])
indices = [0, 2]
op = gather_cols(params, indices)
```

produces the expected output:

```
[[1 3]
[4 6]]
```