Finding non-intersection of two pytorch tensors

Thanks everyone in advance for your help! What I'm trying to do in PyTorch is something like numpy's `setdiff1d`. For example given the below two tensors:

``````t1 = torch.tensor([1, 9, 12, 5, 24]).to('cuda:0')
t2 = torch.tensor([1, 24]).to('cuda:0')
``````

The expected output should be (sorted or unsorted):

``````torch.tensor([9, 12, 5])
``````

Ideally the operations are done on GPU and no back and forth between GPU and CPU. Much appreciated!

• You can use numpy operations directly on torch tensors without a copy: `torch.from_numpy(np.setdiff1d(t1.numpy(),t2.numpy()))` Mar 11, 2019 at 21:37
• Thank you very much @romeric and my apologies that my question was not clearly phrased. I was hoping to use CUDA tensors for this and keep the operations on GPU only, while converting to ndarray requires tensors to be sent back to cpu first. Mar 12, 2019 at 18:54

I came across the same problem but the proposed solutions were far too slow when using larger arrays. The following simple solution works on CPU and GPU and is significantly faster than the other proposed solutions:

``````combined = torch.cat((t1, t2))
uniques, counts = combined.unique(return_counts=True)
difference = uniques[counts == 1]
intersection = uniques[counts > 1]
``````
• seems like different results if t1 has duplicated values Jul 24, 2020 at 7:03
• If the data is not 1d you can just add `dim=0` to `unique` to make it work! Apr 6, 2021 at 12:18
• @Leonid This could be solved by first taking torch.unique form t1 and t2 before concatenating them
– Matt
Dec 6, 2021 at 9:56

if you don't want to leave cuda, a workaround could be:

``````t1 = torch.tensor([1, 9, 12, 5, 24], device = 'cuda')
t2 = torch.tensor([1, 24], device = 'cuda')
indices = torch.ones_like(t1, dtype = torch.uint8, device = 'cuda')
for elem in t2:
indices = indices & (t1 != elem)
intersection = t1[indices]
``````
• iterating over elements with the cpu (using the `for` loop) misses the point of having fast cuda implementation Jan 12, 2021 at 22:29

If you don't want a for loop this can compare all values in one go.

Also you can get the non intersection easily too

``````t1 = torch.tensor([1, 9, 12, 5, 24])
t2 = torch.tensor([1, 24])

# Create a tensor to compare all values at once
compareview = t2.repeat(t1.shape[0],1).T

# Intersection
print(t1[(compareview == t1).T.sum(1)==1])
# Non Intersection
print(t1[(compareview != t1).T.prod(1)==1])
``````
``````tensor([ 1, 24])
tensor([ 9, 12,  5])
``````
• Changing to `compareview = t2.expand(t1.shape[0], t2.shape[0]).T` should save memory since it creates a view. Jun 9, 2021 at 22:42
• If `t1` contains duplicates that are also in `t2`, they will appear multiple times in the intersection. Jun 9, 2021 at 23:08

For intersection I do:

``````import torch
first = torch.Tensor([1, 2, 3, 4, 5, 6])
second = torch.Tensor([7, 3, 9, 1])
intersection=first[(first.view(1, -1) == second.view(-1, 1)).any(dim=0)]
``````

Then for the diff I would do:

``````diff=first[(first.view(1, -1) != second.view(-1, 1)).all(dim=0)]
``````