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200 lines
7.6 KiB
200 lines
7.6 KiB
2 years ago
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from layers import GraphConvolution, GraphConvolutionSparse, InnerProductDecoder
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import tensorflow as tf
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flags = tf.app.flags
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FLAGS = flags.FLAGS
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class Model(object):
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def __init__(self, **kwargs):
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allowed_kwargs = {'name', 'logging'}
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for kwarg in kwargs.keys():
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assert kwarg in allowed_kwargs, 'Invalid keyword argument: ' + kwarg
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for kwarg in kwargs.keys():
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assert kwarg in allowed_kwargs, 'Invalid keyword argument: ' + kwarg
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name = kwargs.get('name')
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if not name:
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name = self.__class__.__name__.lower()
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self.name = name
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logging = kwargs.get('logging', False)
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self.logging = logging
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self.vars = {}
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def _build(self):
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raise NotImplementedError
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def build(self):
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""" Wrapper for _build() """
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with tf.variable_scope(self.name):
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self._build()
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variables = tf.get_collection(tf.GraphKeys.GLOBAL_VARIABLES, scope=self.name)
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self.vars = {var.name: var for var in variables}
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def fit(self):
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pass
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def predict(self):
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pass
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class GCN(Model):
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def __init__(self, placeholders, num_features, features_nonzero, **kwargs):
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super(GCN, self).__init__(**kwargs)
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"""
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inputs:输入
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input_dim:feature的数量,即input的维度?
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feature_nonzero:非0的特征
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adj:邻接矩阵
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dropout:dropout
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"""
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self.inputs = placeholders['features']
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self.input_dim = num_features
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self.features_nonzero = features_nonzero
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self.adj = placeholders['adj']
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self.dropout = placeholders['dropout']
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def construct(self, inputs = None, hidden = None, reuse = False):
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if inputs == None :
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inputs = self.inputs
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with tf.variable_scope('Encoder', reuse=reuse):
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self.hidden1 = GraphConvolutionSparse(input_dim=self.input_dim,
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output_dim=FLAGS.hidden1,
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adj=self.adj,
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features_nonzero = self.features_nonzero,
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act=tf.nn.relu,
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dropout=self.dropout,
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logging=self.logging,
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name='e_dense_1')(inputs)
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self.noise = gaussian_noise_layer(self.hidden1, 0.1)
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if hidden == None:
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hidden = self.hidden1
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self.embeddings = GraphConvolution(input_dim=FLAGS.hidden1,
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output_dim=FLAGS.hidden2,
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adj=self.adj,
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act=lambda x: x,
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dropout=self.dropout,
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logging=self.logging,
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name='e_dense_2')(hidden)
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self.z_mean = self.embeddings
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self.reconstructions = InnerProductDecoder(input_dim=FLAGS.hidden2,
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act=lambda x: x,
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logging=self.logging)(self.embeddings)
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return self.z_mean, self.reconstructions
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class Generator_z2g(Model):
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def __init__(self, placeholders, num_features, features_nonzero, **kwargs):
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super(Generator_z2g, self).__init__(**kwargs)
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"""
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inputs:输入
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input_dim:feature的数量,即input的维度?
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feature_nonzero:非0的特征
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adj:邻接矩阵
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dropout:dropout
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"""
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self.inputs = placeholders['real_distribution']
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self.input_dim = num_features
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self.features_nonzero = features_nonzero
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self.adj = placeholders['adj']
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self.dropout = placeholders['dropout']
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def construct(self, inputs = None, reuse = False):
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if inputs == None:
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inputs = self.inputs
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with tf.variable_scope('Decoder', reuse=reuse):
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self.hidden1 = GraphConvolution(input_dim=FLAGS.hidden2,
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output_dim=FLAGS.hidden1,
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adj=self.adj,
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act=tf.nn.relu,
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dropout=self.dropout,
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logging=self.logging,
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name='GG_dense_1')(inputs)
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self.embeddings = GraphConvolution(input_dim=FLAGS.hidden1,
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output_dim=self.input_dim,
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adj=self.adj,
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act=lambda x: x,
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dropout=self.dropout,
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logging=self.logging,
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name='GG_dense_2')(self.hidden1)
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self.z_mean = self.embeddings
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return self.z_mean,self.hidden1
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def dense(x, n1, n2, name):
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"""
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Used to create a dense layer.
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:param x: input tensor to the dense layer
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:param n1: no. of input neurons
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:param n2: no. of output neurons
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:param name: name of the entire dense layer.i.e, variable scope name.
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:return: tensor with shape [batch_size, n2]
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"""
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with tf.variable_scope(name, reuse=None):
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# np.random.seed(1)
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tf.set_random_seed(1)
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weights = tf.get_variable("weights", shape=[n1, n2],
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initializer=tf.random_normal_initializer(mean=0., stddev=0.01))
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bias = tf.get_variable("bias", shape=[n2], initializer=tf.constant_initializer(0.0))
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out = tf.add(tf.matmul(x, weights), bias, name='matmul')
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return out
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class D_graph(Model):
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def __init__(self, num_features, **kwargs):
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super(D_graph, self).__init__(**kwargs)
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self.act = tf.nn.relu
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self.num_features = num_features
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def construct(self, inputs, reuse = False):
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# input是一张Graph的adj,把每一列当成一个通道,所以input的通道数是num_nodes
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with tf.variable_scope('D_Graph'):
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if reuse:
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tf.get_variable_scope().reuse_variables()
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# np.random.seed(1)
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#tf.set_random_seed(1)
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dc_den1 = tf.nn.relu(dense(inputs, self.num_features, 512, name='GD_den1'))#(bs,num_nodes,512)
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dc_den2 = tf.nn.relu(dense(dc_den1, 512, 128, name='GD_den2'))#(bs, num_nodes, 128)
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output = dense(dc_den2, 128, 1, name='GD_output')#(bs,num_nodes,1)
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return output
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def gaussian_noise_layer(input_layer, std):
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noise = tf.random_normal(shape=tf.shape(input_layer), mean=0.0, stddev=std, dtype=tf.float32)
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return input_layer + noise
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class Discriminator(Model):
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def __init__(self, **kwargs):
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super(Discriminator, self).__init__(**kwargs)
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self.act = tf.nn.relu
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def construct(self, inputs, reuse = False):
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# with tf.name_scope('Discriminator'):
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with tf.variable_scope('Discriminator'):
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if reuse:
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tf.get_variable_scope().reuse_variables()
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# np.random.seed(1)
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tf.set_random_seed(1)
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dc_den1 = tf.nn.relu(dense(inputs, FLAGS.hidden2, FLAGS.hidden3, name='dc_den1'))
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dc_den2 = tf.nn.relu(dense(dc_den1, FLAGS.hidden3, FLAGS.hidden1, name='dc_den2'))
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output = dense(dc_den2, FLAGS.hidden1, 1, name='dc_output')
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return output
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