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- from typing import List, \
- Union, \
- Callable
- from .data import Data
- from .trainprep import PreparedData
- import torch
- from .weights import init_glorot
-
-
- class FastConvLayer(torch.nn.Module):
- adjacency_matrix: List[torch.Tensor]
- adjacency_matrix_backward: List[torch.Tensor]
- weight: List[torch.Tensor]
- weight_backward: List[torch.Tensor]
-
- def __init__(self,
- input_dim: List[int],
- output_dim: List[int],
- data: Union[Data, PreparedData],
- keep_prob: float = 1.,
- rel_activation: Callable[[torch.Tensor], torch.Tensor] = lambda x: x
- layer_activation: Callable[[torch.Tensor], torch.Tensor] = torch.nn.functional.relu,
- **kwargs):
-
- super().__init__(**kwargs)
-
- self._check_params(input_dim, output_dim, data, keep_prob,
- rel_activation, layer_activation)
-
- self.input_dim = input_dim
- self.output_dim = output_dim
- self.data = data
- self.keep_prob = keep_prob
- self.rel_activation = rel_activation
- self.layer_activation = layer_activation
-
- self.adjacency_matrix = None
- self.adjacency_matrix_backward = None
- self.weight = None
- self.weight_backward = None
- self.build()
-
- def build(self):
- self.adjacency_matrix = []
- self.adjacency_matrix_backward = []
- self.weight = []
- self.weight_backward = []
- for fam in self.data.relation_families:
- adj_mat = [ rel.adjacency_matrix \
- for rel in fam.relation_types \
- if rel.adjacency_matrix is not None ]
- adj_mat_back = [ rel.adjacency_matrix_backward \
- for rel in fam.relation_types \
- if rel.adjacency_matrix_backward is not None ]
- weight = [ init_glorot(self.input_dim[fam.node_type_column],
- self.output_dim[fam.node_type_row]) \
- for _ in range(len(adj_mat)) ]
- weight_back = [ init_glorot(self.input_dim[fam.node_type_column],
- self.output_dim[fam.node_type_row]) \
- for _ in range(len(adj_mat_back)) ]
- adj_mat = torch.cat(adj_mat) \
- if len(adj_mat) > 0 \
- else None
- adj_mat_back = torch.cat(adj_mat_back) \
- if len(adj_mat_back) > 0 \
- else None
- self.adjacency_matrix.append(adj_mat)
- self.adjacency_matrix_backward.append(adj_mat_back)
- self.weight.append(weight)
- self.weight_back.append(weight_back)
-
- def forward(self, prev_layer_repr):
- for i, fam in enumerate(self.data.relation_families):
- repr_row = prev_layer_repr[fam.node_type_row]
- repr_column = prev_layer_repr[fam.node_type_column]
-
- adj_mat = self.adjacency_matrix[i]
- adj_mat_back = self.adjacency_matrix_backward[i]
-
- if adj_mat is not None:
- x = dropout(repr_column, keep_prob=self.keep_prob)
- x = torch.sparse.mm(x, self.weight[i]) \
- if x.is_sparse \
- else torch.mm(x, self.weight[i])
- x = torch.sparse.mm(adj_mat, repr_row) \
- if adj_mat.is_sparse \
- else torch.mm(adj_mat, repr_row)
- x = self.rel_activation(x)
- x = x.view(len(fam.relation_types), len(repr_row), -1)
-
- if adj_mat_back is not None:
- x = torch.sparse.mm(adj_mat_back, repr_row) \
- if adj_mat_back.is_sparse \
- else torch.mm(adj_mat_back, repr_row)
-
- @staticmethod
- def _check_params(input_dim, output_dim, data, keep_prob,
- rel_activation, layer_activation):
-
- if not isinstance(input_dim, list):
- raise ValueError('input_dim must be a list')
-
- if not output_dim:
- raise ValueError('output_dim must be specified')
-
- if not isinstance(output_dim, list):
- output_dim = [output_dim] * len(data.node_types)
-
- if not isinstance(data, Data) and not isinstance(data, PreparedData):
- raise ValueError('data must be of type Data or PreparedData')
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