torch.Tensor.new_tensor¶
- Tensor.new_tensor(data, *, dtype=None, device=None, requires_grad=False, layout=torch.strided, pin_memory=False) Tensor ¶
Returns a new Tensor with
data
as the tensor data. By default, the returned Tensor has the sametorch.dtype
andtorch.device
as this tensor.Warning
new_tensor()
always copiesdata
. If you have a Tensordata
and want to avoid a copy, usetorch.Tensor.requires_grad_()
ortorch.Tensor.detach()
. If you have a numpy array and want to avoid a copy, usetorch.from_numpy()
.Warning
When data is a tensor x,
new_tensor()
reads out ‘the data’ from whatever it is passed, and constructs a leaf variable. Thereforetensor.new_tensor(x)
is equivalent tox.clone().detach()
andtensor.new_tensor(x, requires_grad=True)
is equivalent tox.clone().detach().requires_grad_(True)
. The equivalents usingclone()
anddetach()
are recommended.- Parameters:
data (array_like) – The returned Tensor copies
data
.- Keyword Arguments:
dtype (
torch.dtype
, optional) – the desired type of returned tensor. Default: if None, sametorch.dtype
as this tensor.device (
torch.device
, optional) – the desired device of returned tensor. Default: if None, sametorch.device
as this tensor.requires_grad (bool, optional) – If autograd should record operations on the returned tensor. Default:
False
.layout (
torch.layout
, optional) – the desired layout of returned Tensor. Default:torch.strided
.pin_memory (bool, optional) – If set, returned tensor would be allocated in the pinned memory. Works only for CPU tensors. Default:
False
.
Example:
>>> tensor = torch.ones((2,), dtype=torch.int8) >>> data = [[0, 1], [2, 3]] >>> tensor.new_tensor(data) tensor([[ 0, 1], [ 2, 3]], dtype=torch.int8)