技术标签: tensorflow 深度学习
定义图卷积层
import tensorflow as tf
from tensorflow.keras import activations, regularizers, constraints, initializers
class GCNConv(tf.keras.layers.Layer):
def __init__(self,
units,
activation=lambda x: x,
use_bias=True,
kernel_initializer='glorot_uniform',
bias_initializer='zeros',
**kwargs):
super(GCNConv, self).__init__()
self.units = units
self.activation = activations.get(activation)
self.use_bias = use_bias
self.kernel_initializer = initializers.get(kernel_initializer)
self.bias_initializer = initializers.get(bias_initializer)
def build(self, input_shape):
""" GCN has two inputs : [shape(An), shape(X)]
"""
fdim = input_shape[1][1] # feature dim
# 初始化权重矩阵
self.weight = self.add_weight(name="weight",
shape=(fdim, self.units),
initializer=self.kernel_initializer,
trainable=True)
if self.use_bias:
# 初始化偏置项
self.bias = self.add_weight(name="bias",
shape=(self.units, ),
initializer=self.bias_initializer,
trainable=True)
def call(self, inputs):
""" GCN has two inputs : [An, X]
"""
self.An = inputs[0]
self.X = inputs[1]
# 计算 XW
if isinstance(self.X, tf.SparseTensor):
h = tf.sparse.sparse_dense_matmul(self.X, self.weight)
else:
h = tf.matmul(self.X, self.weight)
# 计算 AXW
output = tf.sparse.sparse_dense_matmul(self.An, h)
if self.use_bias:
output = tf.nn.bias_add(output, self.bias)
if self.activation:
output = self.activation(output)
return output
定义 GCN 模型
class GCN():
def __init__(self, An, X, sizes, **kwargs):
self.with_relu = True
self.with_bias = True
self.lr = FLAGS.learning_rate
self.dropout = FLAGS.dropout
self.verbose = FLAGS.verbose
self.An = An
self.X = X
self.layer_sizes = sizes
self.shape = An.shape
self.An_tf = sp_matrix_to_sp_tensor(self.An)
self.X_tf = sp_matrix_to_sp_tensor(self.X)
self.layer1 = GCNConv(self.layer_sizes[0], activation='relu')
self.layer2 = GCNConv(self.layer_sizes[1])
self.opt = tf.optimizers.Adam(learning_rate=self.lr)
def train(self, idx_train, labels_train, idx_val, labels_val):
K = labels_train.max() + 1
train_losses = []
val_losses = []
# use adam to optimize
for it in range(FLAGS.epochs):
tic = time()
with tf.GradientTape() as tape:
_loss = self.loss_fn(idx_train, np.eye(K)[labels_train])
# optimize over weights
grad_list = tape.gradient(_loss, self.var_list)
grads_and_vars = zip(grad_list, self.var_list)
self.opt.apply_gradients(grads_and_vars)
# evaluate on the training
train_loss, train_acc = self.evaluate(idx_train, labels_train, training=True)
train_losses.append(train_loss)
val_loss, val_acc = self.evaluate(idx_val, labels_val, training=False)
val_losses.append(val_loss)
toc = time()
if self.verbose:
print("iter:{:03d}".format(it),
"train_loss:{:.4f}".format(train_loss),
"train_acc:{:.4f}".format(train_acc),
"val_loss:{:.4f}".format(val_loss),
"val_acc:{:.4f}".format(val_acc),
"time:{:.4f}".format(toc - tic))
return train_losses
def loss_fn(self, idx, labels, training=True):
if training:
# .nnz 是获得X中元素的个数
_X = sparse_dropout(self.X_tf, self.dropout, [self.X.nnz])
else:
_X = self.X_tf
self.h1 = self.layer1([self.An_tf, _X])
if training:
_h1 = tf.nn.dropout(self.h1, self.dropout)
else:
_h1 = self.h1
self.h2 = self.layer2([self.An_tf, _h1])
self.var_list = self.layer1.weights + self.layer2.weights
# calculate the loss base on idx and labels
_logits = tf.gather(self.h2, idx)
_loss_per_node = tf.nn.softmax_cross_entropy_with_logits(labels=labels,
logits=_logits)
_loss = tf.reduce_mean(_loss_per_node)
# 加上 l2 正则化项
_loss += FLAGS.weight_decay * sum(map(tf.nn.l2_loss, self.layer1.weights))
return _loss
def evaluate(self, idx, true_labels, training):
K = true_labels.max() + 1
_loss = self.loss_fn(idx, np.eye(K)[true_labels], training=training).numpy()
_pred_logits = tf.gather(self.h2, idx)
_pred_labels = tf.argmax(_pred_logits, axis=1).numpy()
_acc = accuracy_score(_pred_labels, true_labels)
return _loss, _acc
训练模型
# 计算标准化的邻接矩阵:根号D * A * 根号D
def preprocess_graph(adj):
# _A = A + I
_adj = adj + sp.eye(adj.shape[0])
# _dseq:各个节点的度构成的列表
_dseq = _adj.sum(1).A1
# 构造开根号的度矩阵
_D_half = sp.diags(np.power(_dseq, -0.5))
# 计算标准化的邻接矩阵, @ 表示矩阵乘法
adj_normalized = _D_half @ _adj @ _D_half
return adj_normalized.tocsr()
if __name__ == "__main__":
# 读取数据
# A_mat:邻接矩阵,以scipy的csr形式存储
# X_mat:特征矩阵,以scipy的csr形式存储
# z_vec:label
# train_idx,val_idx,test_idx: 要使用的节点序号
A_mat, X_mat, z_vec, train_idx, val_idx, test_idx = load_data_planetoid(FLAGS.dataset)
# 邻居矩阵标准化
An_mat = preprocess_graph(A_mat)
# 节点的类别个数
K = z_vec.max() + 1
# 构造GCN模型
gcn = GCN(An_mat, X_mat, [FLAGS.hidden1, K])
# 训练
gcn.train(train_idx, z_vec[train_idx], val_idx, z_vec[val_idx])
# 测试
test_res = gcn.evaluate(test_idx, z_vec[test_idx], training=False)
print("Dataset {}".format(FLAGS.dataset),
"Test loss {:.4f}".format(test_res[0]),
"test acc {:.4f}".format(test_res[1]))
详细介绍请看这篇博客https://blog.csdn.net/VariableX/article/details/109820684
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