Function Differences with torch.logical_xor
torch.logical_xor
class torch.logical_xor(input, other, out=None)
For more information, see torch.logical_xor.
mindspore.numpy.logical_xor
class mindspore.numpy.logical_xor(x1, x2, dtype=None)
For more information, see mindspore.numpy.logical_xor.
Differences
PyTorch: Computes the element-wise logical XOR of the given input tensors. Zeros are treated as False
and nonzeros are treated as True
.
MindSpore: Computes the truth value of x1 XOR x2, element-wise. The input should be a bool or a tensor whose data type is bool.
Code Example
import mindspore.numpy as np
import torch
# MindSpore
x1 = np.array([True, False])
x2 = np.array([False, False])
print(np.logical_xor(x1, x2))
# [True False]
x1 = np.array([0, 1, 10, 0])
x2 = np.array([4, 0, 1, 0], dtype=bool)
print(np.logical_xor(x1, x2))
# TypeError: For primitive[LogicalOr], the input argument[x] must be a type of {Tensor[Bool],}, but got Int32.
# PyTorch
print(torch.logical_xor(torch.tensor([True, False, True]), torch.tensor([True, False, False])))
# tensor([False, False, True])
a = torch.tensor([0, 1, 10, 0], dtype=torch.int8)
b = torch.tensor([4, 0, 1, 0], dtype=torch.int8)
print(torch.logical_xor(a, b))
# tensor([ True, True, False, False])
print(torch.logical_xor(a.double(), b.double()))
# tensor([ True, True, False, False])
print(torch.logical_xor(a.double(), b))
# tensor([ True, True, False, False])
print(torch.logical_xor(a, b, out=torch.empty(4, dtype=torch.bool)))
# tensor([ True, True, False, False])