from typing import Optional
from torch import Tensor, nn
from torch_geometric.nn.dense.linear import Linear
from torch_geometric.typing import Adj, OptTensor
from greatx.functional import spmm
from greatx.nn.layers.gcn_conv import make_gcn_norm, make_self_loops
[docs]class SGConv(nn.Module):
r"""The simplified graph convolutional operator from
the `"Simplifying Graph Convolutional Networks"
<https://arxiv.org/abs/1902.07153>`_ paper (ICML'19)
Parameters
----------
in_channels : int
dimensions of int samples
out_channels : int
dimensions of output samples
K : int
the number of propagation steps, by default 1
cached : bool, optional
whether the layer will cache
the computation of :math:`(\mathbf{\hat{D}}^{-1/2} \mathbf{\hat{A}}
\mathbf{\hat{D}}^{-1/2})^K` on first execution, and will use the
cached version for further executions, by default False
add_self_loops : bool, optional
whether to add self-loops to the input graph, by default True
normalize : bool, optional
whether to compute symmetric normalization
coefficients on the fly, by default True
bias : bool, optional
whether to use bias in the layers, by default True
Note
----
Different from that in :class:`torch_geometric`,
for the input :obj:`edge_index`, our implementation supports
:obj:`torch.FloatTensor`, :obj:`torch.LongTensor`
and obj:`torch_sparse.SparseTensor`.
See also
--------
:class:`greatx.nn.models.supervised.SGC`
"""
_cached_x: Optional[Tensor]
def __init__(self, in_channels: int, out_channels: int, K: int = 1,
cached: bool = False, add_self_loops: bool = True,
normalize: bool = True, bias: bool = True):
super().__init__()
self.in_channels = in_channels
self.out_channels = out_channels
self.K = K
self.cached = cached
self.add_self_loops = add_self_loops
self.normalize = normalize
self._cached_x = None
self.lin = Linear(in_channels, out_channels, bias=bias,
weight_initializer='glorot')
self.reset_parameters()
[docs] def reset_parameters(self):
self.lin.reset_parameters()
self.cache_clear()
[docs] def cache_clear(self):
"""Clear cached inputs or intermediate results."""
self._cached_x = None
return self
[docs] def forward(self, x: Tensor, edge_index: Adj,
edge_weight: OptTensor = None) -> Tensor:
""""""
cache = self._cached_x
if cache is None:
if self.add_self_loops:
edge_index, edge_weight = make_self_loops(
edge_index, edge_weight, num_nodes=x.size(0))
if self.normalize:
edge_index, edge_weight = make_gcn_norm(
edge_index, edge_weight, num_nodes=x.size(0),
dtype=x.dtype, add_self_loops=False)
for k in range(self.K):
x = spmm(x, edge_index, edge_weight)
if self.cached:
self._cached_x = x
else:
x = cache.detach()
return self.lin(x)
def __repr__(self) -> str:
return (f'{self.__class__.__name__}({self.in_channels}, '
f'{self.out_channels}, K={self.K})')