from typing import List, Optional, Tuple, Union
import torch
from torch import Tensor
from torch_geometric.utils import coalesce, sort_edge_index
from .num_nodes import maybe_num_nodes
[docs]def is_undirected(
edge_index: Tensor,
edge_attr: Optional[Union[Tensor, List[Tensor]]] = None,
num_nodes: Optional[int] = None,
) -> bool:
r"""Returns :obj:`True` if the graph given by :attr:`edge_index` is
undirected.
Args:
edge_index (LongTensor): The edge indices.
edge_attr (Tensor or List[Tensor], optional): Edge weights or multi-
dimensional edge features.
If given as a list, will check for equivalence in all its entries.
(default: :obj:`None`)
num_nodes (int, optional): The number of nodes, *i.e.*
:obj:`max_val + 1` of :attr:`edge_index`. (default: :obj:`None`)
:rtype: bool
"""
num_nodes = maybe_num_nodes(edge_index, num_nodes)
edge_attr = [] if edge_attr is None else edge_attr
edge_attr = [edge_attr] if isinstance(edge_attr, Tensor) else edge_attr
edge_index1, edge_attr1 = sort_edge_index(
edge_index,
edge_attr,
num_nodes=num_nodes,
sort_by_row=True,
)
edge_index2, edge_attr2 = sort_edge_index(
edge_index1,
edge_attr1,
num_nodes=num_nodes,
sort_by_row=False,
)
return (bool(torch.all(edge_index1[0] == edge_index2[1]))
and bool(torch.all(edge_index1[1] == edge_index2[0])) and all([
torch.all(e == e_T) for e, e_T in zip(edge_attr1, edge_attr2)
]))
[docs]def to_undirected(
edge_index: Tensor,
edge_attr: Optional[Union[Tensor, List[Tensor]]] = None,
num_nodes: Optional[int] = None,
reduce: str = "add",
) -> Union[Tensor, Tuple[Tensor, Tensor], Tuple[Tensor, List[Tensor]]]:
r"""Converts the graph given by :attr:`edge_index` to an undirected graph
such that :math:`(j,i) \in \mathcal{E}` for every edge :math:`(i,j) \in
\mathcal{E}`.
Args:
edge_index (LongTensor): The edge indices.
edge_attr (Tensor or List[Tensor], optional): Edge weights or multi-
dimensional edge features.
If given as a list, will remove duplicates for all its entries.
(default: :obj:`None`)
num_nodes (int, optional): The number of nodes, *i.e.*
:obj:`max_val + 1` of :attr:`edge_index`. (default: :obj:`None`)
reduce (string, optional): The reduce operation to use for merging edge
features (:obj:`"add"`, :obj:`"mean"`, :obj:`"min"`, :obj:`"max"`,
:obj:`"mul"`). (default: :obj:`"add"`)
:rtype: :class:`LongTensor` if :attr:`edge_attr` is :obj:`None`, else
(:class:`LongTensor`, :obj:`Tensor` or :obj:`List[Tensor]]`)
"""
# Maintain backward compatibility to `to_undirected(edge_index, num_nodes)`
if isinstance(edge_attr, int):
edge_attr = None
num_nodes = edge_attr
row, col = edge_index
row, col = torch.cat([row, col], dim=0), torch.cat([col, row], dim=0)
edge_index = torch.stack([row, col], dim=0)
if edge_attr is not None and isinstance(edge_attr, Tensor):
edge_attr = torch.cat([edge_attr, edge_attr], dim=0)
elif edge_attr is not None:
edge_attr = [torch.cat([e, e], dim=0) for e in edge_attr]
return coalesce(edge_index, edge_attr, num_nodes, reduce)