PyTorch: How to use DataLoaders for custom Datasets
Solution 1:
Yes, that is possible. Just create the objects by yourself, e.g.
import torch.utils.data as data_utils
train = data_utils.TensorDataset(features, targets)
train_loader = data_utils.DataLoader(train, batch_size=50, shuffle=True)
where features
and targets
are tensors. features
has to be 2-D, i.e. a matrix where each line represents one training sample, and targets
may be 1-D or 2-D, depending on whether you are trying to predict a scalar or a vector.
Hope that helps!
EDIT: response to @sarthak's question
Basically yes. If you create an object of type TensorData
, then the constructor investigates whether the first dimensions of the feature tensor (which is actually called data_tensor
) and the target tensor (called target_tensor
) have the same length:
assert data_tensor.size(0) == target_tensor.size(0)
However, if you want to feed these data into a neural network subsequently, then you need to be careful. While convolution layers work on data like yours, (I think) all of the other types of layers expect the data to be given in matrix form. So, if you run into an issue like this, then an easy solution would be to convert your 4D-dataset (given as some kind of tensor, e.g. FloatTensor
) into a matrix by using the method view
. For your 5000xnxnx3 dataset, this would look like this:
2d_dataset = 4d_dataset.view(5000, -1)
(The value -1
tells PyTorch to figure out the length of the second dimension automatically.)
Solution 2:
You can easily do this be extending the data.Dataset
class.
According to the API, all you have to do is implement two function: __getitem__
and __len__
.
You can then wrap the dataset with the DataLoader as shown in the API and in @pho7 's answer.
I think the ImageFolder
class is a reference. See code here.
Solution 3:
Yes, you can do it. Hope this helps for future readers.
from torch.utils.data import TensorDataset, DataLoader
import torch.utils.data as data_utils
inputs = [[ 1, 2, 3, 4, 5],[ 2, 3, 4, 5, 6]]
targets = [ 6,7]
batch_size = 2
inputs = torch.tensor(inputs)
targets = torch.IntTensor(targets)
dataset =TensorDataset(inputs, targets)
data_loader = DataLoader(dataset, batch_size, shuffle = True)