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decagon-pytorch/src/decagon_pytorch/decode.py

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  1. import torch

  2. from .weights import init_glorot

  3. from .dropout import dropout

  4. 

  5. 

  6. class DEDICOMDecoder(torch.nn.Module):

  7.     """DEDICOM Tensor Factorization Decoder model layer for link prediction."""

  8.     def __init__(self, input_dim, num_relation_types, drop_prob=0.,

  9.         activation=torch.sigmoid, **kwargs):

  10. 

  11.         super().__init__(**kwargs)

  12.         self.input_dim = input_dim

  13.         self.num_relation_types = num_relation_types

  14.         self.drop_prob = drop_prob

  15.         self.activation = activation

  16. 

  17.         self.global_interaction = init_glorot(input_dim, input_dim)

  18.         self.local_variation = [

  19.             torch.flatten(init_glorot(input_dim, 1)) \

  20.                 for _ in range(num_relation_types)

  21.         ]

  22. 

  23.     def forward(self, inputs_row, inputs_col):

  24.         outputs = []

  25.         for k in range(self.num_relation_types):

  26.             inputs_row = dropout(inputs_row, 1.-self.drop_prob)

  27.             inputs_col = dropout(inputs_col, 1.-self.drop_prob)

  28. 

  29.             relation = torch.diag(self.local_variation[k])

  30. 

  31.             product1 = torch.mm(inputs_row, relation)

  32.             product2 = torch.mm(product1, self.global_interaction)

  33.             product3 = torch.mm(product2, relation)

  34.             rec = torch.mm(product3, torch.transpose(inputs_col, 0, 1))

  35.             outputs.append(self.activation(rec))

  36.         return outputs

  37. 

  38. 

  39. class DistMultDecoder(torch.nn.Module):

  40.     """DEDICOM Tensor Factorization Decoder model layer for link prediction."""

  41.     def __init__(self, input_dim, num_relation_types, drop_prob=0.,

  42.         activation=torch.sigmoid, **kwargs):

  43. 

  44.         super().__init__(**kwargs)

  45.         self.input_dim = input_dim

  46.         self.num_relation_types = num_relation_types

  47.         self.drop_prob = drop_prob

  48.         self.activation = activation

  49. 

  50.         self.relation = [

  51.             torch.flatten(init_glorot(input_dim, 1)) \

  52.                 for _ in range(num_relation_types)

  53.         ]

  54. 

  55.     def forward(self, inputs_row, inputs_col):

  56.         outputs = []

  57.         for k in range(self.num_relation_types):

  58.             inputs_row = dropout(inputs_row, 1.-self.drop_prob)

  59.             inputs_col = dropout(inputs_col, 1.-self.drop_prob)

  60. 

  61.             relation = torch.diag(self.relation[k])

  62. 

  63.             intermediate_product = torch.mm(inputs_row, relation)

  64.             rec = torch.mm(intermediate_product, torch.transpose(inputs_col, 0, 1))

  65.             outputs.append(self.activation(rec))

  66.         return outputs