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gat.py
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gat.py
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"""
Graph Attention Networks in DGL using SPMV optimization.
References
----------
Paper: https://arxiv.org/abs/1710.10903
Author's code: https://github.com/PetarV-/GAT
Pytorch implementation: https://github.com/Diego999/pyGAT
"""
import mxnet.gluon.nn as nn
from dgl.nn.mxnet.conv import GATConv
class GAT(nn.Block):
def __init__(self,
g,
num_layers,
in_dim,
num_hidden,
num_classes,
heads,
activation,
feat_drop,
attn_drop,
alpha,
residual):
super(GAT, self).__init__()
self.g = g
self.num_layers = num_layers
self.gat_layers = []
self.activation = activation
# input projection (no residual)
self.gat_layers.append(GATConv(
in_dim, num_hidden, heads[0],
feat_drop, attn_drop, alpha, False))
# hidden layers
for l in range(1, num_layers):
# due to multi-head, the in_dim = num_hidden * num_heads
self.gat_layers.append(GATConv(
num_hidden * heads[l-1], num_hidden, heads[l],
feat_drop, attn_drop, alpha, residual))
# output projection
self.gat_layers.append(GATConv(
num_hidden * heads[-2], num_classes, heads[-1],
feat_drop, attn_drop, alpha, residual))
for i, layer in enumerate(self.gat_layers):
self.register_child(layer, "gat_layer_{}".format(i))
def forward(self, inputs):
h = inputs
for l in range(self.num_layers):
h = self.gat_layers[l](self.g, h).flatten()
h = self.activation(h)
# output projection
logits = self.gat_layers[-1](self.g, h).mean(1)
return logits