torch.nn.functional.embedding¶
- torch.nn.functional.embedding(input, weight, padding_idx=None, max_norm=None, norm_type=2.0, scale_grad_by_freq=False, sparse=False)[source]¶
A simple lookup table that looks up embeddings in a fixed dictionary and size.
This module is often used to retrieve word embeddings using indices. The input to the module is a list of indices, and the embedding matrix, and the output is the corresponding word embeddings.
See
torch.nn.Embedding
for more details.- Parameters:
input (LongTensor) – Tensor containing indices into the embedding matrix
weight (Tensor) – The embedding matrix with number of rows equal to the maximum possible index + 1, and number of columns equal to the embedding size
padding_idx (int, optional) – If specified, the entries at
padding_idx
do not contribute to the gradient; therefore, the embedding vector atpadding_idx
is not updated during training, i.e. it remains as a fixed “pad”.max_norm (float, optional) – If given, each embedding vector with norm larger than
max_norm
is renormalized to have normmax_norm
. Note: this will modifyweight
in-place.norm_type (float, optional) – The p of the p-norm to compute for the
max_norm
option. Default2
.scale_grad_by_freq (bool, optional) – If given, this will scale gradients by the inverse of frequency of the words in the mini-batch. Default
False
.sparse (bool, optional) – If
True
, gradient w.r.t.weight
will be a sparse tensor. See Notes undertorch.nn.Embedding
for more details regarding sparse gradients.
- Return type:
- Shape:
Input: LongTensor of arbitrary shape containing the indices to extract
Weight: Embedding matrix of floating point type with shape (V, embedding_dim), where V = maximum index + 1 and embedding_dim = the embedding size
Output: (*, embedding_dim), where * is the input shape
Examples:
>>> # a batch of 2 samples of 4 indices each >>> input = torch.tensor([[1, 2, 4, 5], [4, 3, 2, 9]]) >>> # an embedding matrix containing 10 tensors of size 3 >>> embedding_matrix = torch.rand(10, 3) >>> F.embedding(input, embedding_matrix) tensor([[[ 0.8490, 0.9625, 0.6753], [ 0.9666, 0.7761, 0.6108], [ 0.6246, 0.9751, 0.3618], [ 0.4161, 0.2419, 0.7383]], [[ 0.6246, 0.9751, 0.3618], [ 0.0237, 0.7794, 0.0528], [ 0.9666, 0.7761, 0.6108], [ 0.3385, 0.8612, 0.1867]]]) >>> # example with padding_idx >>> weights = torch.rand(10, 3) >>> weights[0, :].zero_() >>> embedding_matrix = weights >>> input = torch.tensor([[0, 2, 0, 5]]) >>> F.embedding(input, embedding_matrix, padding_idx=0) tensor([[[ 0.0000, 0.0000, 0.0000], [ 0.5609, 0.5384, 0.8720], [ 0.0000, 0.0000, 0.0000], [ 0.6262, 0.2438, 0.7471]]])