Add first test for declayer.

4 年前 · f51855e5b3
--- a/src/icosagon/declayer.py
+++ b/src/icosagon/declayer.py
@@ -22,8 +22,8 @@ class DecodeLayer(torch.nn.Module):
        input_dim: List[int],
        data: Union[Data, PreparedData],
        keep_prob: float = 1.,
        activation: Callable[[torch.Tensor], torch.Tensor] = torch.sigmoid,
        decoder_class: Union[Type, Dict[Tuple[int, int], Type]] = DEDICOMDecoder,
        activation: Callable[[torch.Tensor], torch.Tensor] = torch.sigmoid,
        **kwargs) -> None:

        super().__init__(**kwargs)
@@ -35,9 +35,9 @@ class DecodeLayer(torch.nn.Module):
        self.output_dim = 1
        self.data = data
        self.keep_prob = keep_prob
        self.decoder_class = decoder_class
        self.activation = activation

        self.decoder_class = decoder_class
        self.decoders = None
        self.build()

@@ -45,6 +45,7 @@ class DecodeLayer(torch.nn.Module):
        self.decoders = {}

        n = len(self.data.node_types)
        relation_types = self.data.relation_types
        for node_type_row in range(n):
            if node_type_row not in relation_types:
                continue
@@ -70,34 +71,16 @@ class DecodeLayer(torch.nn.Module):
                    decoder_class = self.decoder_class

                self.decoders[node_type_row, node_type_column] = \
                    decoder_class(self.input_dim,
                    decoder_class(self.input_dim[node_type_row],
                        num_relation_types = len(rels),
                        drop_prob = 1. - self.keep_prob,
                        keep_prob = self.keep_prob,
                        activation = self.activation)

    def forward(self, last_layer_repr: List[torch.Tensor]) -> TrainValTest:

        # n = len(self.data.node_types)
        # relation_types = self.data.relation_types
        # for node_type_row in range(n):
        #     if node_type_row not in relation_types:
        #         continue
        #
        #     for node_type_column in range(n):
        #         if node_type_column not in relation_types[node_type_row]:
        #             continue
        #
        #         rels = relation_types[node_type_row][node_type_column]
        #
        #         for mode in ['train', 'val', 'test']:
        #             getattr(relation_types[node_type_row][node_type_column].edges_pos, mode)
        #             getattr(self.data.edges_neg, mode)
        #             last_layer[]

    def forward(self, last_layer_repr: List[torch.Tensor]) -> Dict[Tuple[int, int], List[torch.Tensor]]:
        res = {}
        for (node_type_row, node_type_column), dec in self.decoders.items():
            inputs_row = last_layer_repr[node_type_row]
            inputs_column = last_layer_repr[node_type_column]
            pred_adj_matrices = dec(inputs_row, inputs_col)
            res[node_type_row, node_type_col] = pred_adj_matrices
            pred_adj_matrices = dec(inputs_row, inputs_column)
            res[node_type_row, node_type_column] = pred_adj_matrices
        return res