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decagon-pytorch/src/decagon_pytorch/layer/convolve.py

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  1. from .layer import Layer

  2. import torch

  3. from ..convolve import DropoutGraphConvActivation

  4. from ..data import Data

  5. from typing import List, \

  6.     Union, \

  7.     Callable

  8. from collections import defaultdict

  9. 

  10. 

  11. class DecagonLayer(Layer):

  12.     def __init__(self,

  13.         data: Data,

  14.         previous_layer: Layer,

  15.         output_dim: Union[int, List[int]],

  16.         keep_prob: float = 1.,

  17.         rel_activation: Callable[[torch.Tensor], torch.Tensor] = lambda x: x,

  18.         layer_activation: Callable[[torch.Tensor], torch.Tensor] = torch.nn.functional.relu,

  19.         **kwargs):

  20.         if not isinstance(output_dim, list):

  21.             output_dim = [ output_dim ] * len(data.node_types)

  22.         super().__init__(output_dim, is_sparse=False, **kwargs)

  23.         self.data = data

  24.         self.previous_layer = previous_layer

  25.         self.input_dim = previous_layer.output_dim

  26.         self.keep_prob = keep_prob

  27.         self.rel_activation = rel_activation

  28.         self.layer_activation = layer_activation

  29.         self.next_layer_repr = None

  30.         self.build()

  31. 

  32.     def build(self):

  33.         self.next_layer_repr = defaultdict(list)

  34. 

  35.         for (nt_row, nt_col), relation_types in self.data.relation_types.items():

  36.             row_convs = []

  37.             col_convs = []

  38. 

  39.             for rel in relation_types:

  40.                 conv = DropoutGraphConvActivation(self.input_dim[nt_col],

  41.                     self.output_dim[nt_row], rel.adjacency_matrix,

  42.                     self.keep_prob, self.rel_activation)

  43.                 row_convs.append(conv)

  44. 

  45.                 if nt_row == nt_col:

  46.                     continue

  47. 

  48.                 conv = DropoutGraphConvActivation(self.input_dim[nt_row],

  49.                     self.output_dim[nt_col], rel.adjacency_matrix.transpose(0, 1),

  50.                     self.keep_prob, self.rel_activation)

  51.                 col_convs.append(conv)

  52. 

  53.             self.next_layer_repr[nt_row].append((row_convs, nt_col))

  54. 

  55.             if nt_row == nt_col:

  56.                 continue

  57. 

  58.             self.next_layer_repr[nt_col].append((col_convs, nt_row))

  59. 

  60.     def __call__(self):

  61.         prev_layer_repr = self.previous_layer()

  62.         next_layer_repr = [ [] for _ in range(len(self.data.node_types)) ]

  63.         print('next_layer_repr:', next_layer_repr)

  64.         for i in range(len(self.data.node_types)):

  65.             for convs, neighbor_type in self.next_layer_repr[i]:

  66.                 convs = [ conv(prev_layer_repr[neighbor_type]) \

  67.                     for conv in convs ]

  68.                 convs = sum(convs)

  69.                 convs = torch.nn.functional.normalize(convs, p=2, dim=1)

  70.                 next_layer_repr[i].append(convs)

  71.             next_layer_repr[i] = sum(next_layer_repr[i])

  72.             next_layer_repr[i] = self.layer_activation(next_layer_repr[i])

  73.         print('next_layer_repr:', next_layer_repr)

  74.         return next_layer_repr