Source code for cogdl.models.emb.hope

import numpy as np
import networkx as nx
import scipy.sparse as sp
from sklearn import preprocessing
from .. import BaseModel, register_model

[docs]@register_model("hope") class HOPE(BaseModel): r"""The HOPE model from the `"Grarep: Asymmetric transitivity preserving graph embedding" <>`_ paper. Args: hidden_size (int) : The dimension of node representation. beta (float) : Parameter in katz decomposition. """
[docs] @staticmethod def add_args(parser): """Add model-specific arguments to the parser.""" # fmt: off parser.add_argument('--beta', type=float, default=0.01, help='Parameter of katz for HOPE. Default is 0.01')
# fmt: on
[docs] @classmethod def build_model_from_args(cls, args): return cls(args.hidden_size, args.beta)
def __init__(self, dimension, beta): super(HOPE, self).__init__() self.dimension = dimension self.beta = beta
[docs] def train(self, G): r"""The author claim that Katz has superior performance in related tasks S_katz = (M_g)^-1 * M_l = (I - beta*A)^-1 * beta*A = (I - beta*A)^-1 * (I - (I -beta*A)) = (I - beta*A)^-1 - I """ adj = nx.adjacency_matrix(G).todense() n = adj.shape[0] katz_matrix = np.asarray((np.eye(n) - self.beta * np.mat(adj)).I - np.eye(n)) self.embeddings = self._get_embedding(katz_matrix, self.dimension) return self.embeddings
def _get_embedding(self, matrix, dimension): # get embedding from svd and process normalization for ut and vt ut, s, vt = sp.linalg.svds(matrix, int(dimension / 2)) emb_matrix_1, emb_matrix_2 = ut, vt.transpose() emb_matrix_1 = emb_matrix_1 * np.sqrt(s) emb_matrix_2 = emb_matrix_2 * np.sqrt(s) emb_matrix_1 = preprocessing.normalize(emb_matrix_1, "l2") emb_matrix_2 = preprocessing.normalize(emb_matrix_2, "l2") features = np.hstack((emb_matrix_1, emb_matrix_2)) return features