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@@ -8,7 +8,10 @@ import numpy as np |
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import torch
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import torch
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import torch.utils.data
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import torch.utils.data
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from typing import List, \
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from typing import List, \
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Union
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Union, \
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Tuple
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from .data import Data, \
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EdgeType
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def fixed_unigram_candidate_sampler(
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def fixed_unigram_candidate_sampler(
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@@ -24,7 +27,7 @@ def fixed_unigram_candidate_sampler( |
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if len(true_classes.shape) != 2:
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if len(true_classes.shape) != 2:
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raise ValueError('true_classes must be a 2D matrix with shape (num_samples, num_true)')
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raise ValueError('true_classes must be a 2D matrix with shape (num_samples, num_true)')
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num_samples = true_classes.shape[0]
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num_samples = true_classes.shape[0]
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unigrams = np.array(unigrams)
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unigrams = np.array(unigrams)
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if distortion != 1.:
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if distortion != 1.:
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@@ -40,8 +43,74 @@ def fixed_unigram_candidate_sampler( |
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# print('candidates:', candidates)
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# print('candidates:', candidates)
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# print('true_classes:', true_classes[indices, :])
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# print('true_classes:', true_classes[indices, :])
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result[indices] = candidates.T
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result[indices] = candidates.T
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# print('result:', result)
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mask = (candidates == true_classes[indices, :])
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mask = (candidates == true_classes[indices, :])
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mask = mask.sum(1).astype(np.bool)
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mask = mask.sum(1).astype(np.bool)
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# print('mask:', mask)
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# print('mask:', mask)
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indices = indices[mask]
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indices = indices[mask]
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# result[indices] = 0
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return torch.tensor(result)
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return torch.tensor(result)
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def get_edges_and_degrees(adj_mat: torch.Tensor) -> \
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Tuple[torch.Tensor, torch.Tensor]:
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if adj_mat.is_sparse:
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adj_mat = adj_mat.coalesce()
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degrees = torch.zeros(adj_mat.shape[1], dtype=torch.int64,
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device=adj_mat.device)
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degrees = degrees.index_add(0, adj_mat.indices()[1],
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torch.ones(adj_mat.indices().shape[1], dtype=torch.int64,
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device=adj_mat.device))
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edges_pos = adj_mat.indices().transpose(0, 1)
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else:
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degrees = adj_mat.sum(0)
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edges_pos = torch.nonzero(adj_mat, as_tuple=False)
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return edges_pos, degrees
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def negative_sample_adj_mat(adj_mat: torch.Tensor) -> torch.Tensor:
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if not isinstance(adj_mat, torch.Tensor):
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raise ValueError('adj_mat must be a torch.Tensor, got: %s' % adj_mat.__class__.__name__)
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edges_pos, degrees = get_edges_and_degrees(adj_mat)
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neg_neighbors = fixed_unigram_candidate_sampler(
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edges_pos[:, 1].view(-1, 1), degrees, 0.75).to(adj_mat.device)
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edges_neg = torch.cat([ edges_pos[:, 0].view(-1, 1),
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neg_neighbors.view(-1, 1) ], 1)
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adj_mat_neg = torch.sparse_coo_tensor(indices = edges_neg.transpose(0, 1),
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values=torch.ones(len(edges_neg)), size=adj_mat.shape,
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dtype=adj_mat.dtype, device=adj_mat.device)
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adj_mat_neg = adj_mat_neg.coalesce()
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indices = adj_mat_neg.indices()
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adj_mat_neg = torch.sparse_coo_tensor(indices,
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torch.ones(indices.shape[1]), adj_mat.shape,
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dtype=adj_mat.dtype, device=adj_mat.device)
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adj_mat_neg = adj_mat_neg.coalesce()
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return adj_mat_neg
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def negative_sample_data(data: Data) -> Data:
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new_edge_types = {}
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res = Data()
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for vt in data.vertex_types:
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res.add_vertex_type(vt.name, vt.count)
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for key, et in data.edge_types.items():
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adjacency_matrices_neg = []
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for adj_mat in et.adjacency_matrices:
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adj_mat_neg = negative_sample_adj_mat(adj_mat)
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adjacency_matrices_neg.append(adj_mat_neg)
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res.add_edge_type(et.name,
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et.vertex_type_row, et.vertex_type_column,
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adjacency_matrices_neg, et.decoder_factory)
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#new_et = EdgeType(et.name, et.vertex_type_row,
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# et.vertex_type_column, adjacency_matrices_neg,
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# et.decoder_factory, et.total_connectivity)
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#new_edge_types[key] = new_et
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#res = Data(data.vertex_types, new_edge_types)
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return res
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