import random
import networkx as nx
import networkit as nk
from typing import Union, List
from littleballoffur.sampler import Sampler
NKGraph = type(nk.graph.Graph())
NXGraph = nx.classes.graph.Graph
[docs]class RandomNodeSampler(Sampler):
r"""An implementation of random node sampling. Nodes are sampled with uniform
probability. `"For details about the algorithm see this paper." <https://www.pnas.org/content/102/12/4221>`_
Args:
number_of_nodes (int): Number of nodes. Default is 100.
seed (int): Random seed. Default is 42.
"""
def __init__(self, number_of_nodes: int = 100, seed: int = 42):
self.number_of_nodes = number_of_nodes
self.seed = seed
self._set_seed()
def _create_initial_node_set(self, graph) -> List[int]:
"""
Choosing initial nodes.
"""
nodes = self.backend.get_nodes(graph)
sampled_nodes = random.sample(nodes, self.number_of_nodes)
return sampled_nodes
[docs] def sample(self, graph: Union[NXGraph, NKGraph]) -> Union[NXGraph, NKGraph]:
"""
Sampling nodes randomly.
Arg types:
* **graph** *(NetworkX or NetworKit graph)* - The graph to be sampled from.
Return types:
* **new_graph** *(NetworkX or NetworKit graph)* - The graph of sampled nodes.
"""
self._deploy_backend(graph)
self._check_number_of_nodes(graph)
sampled_nodes = self._create_initial_node_set(graph)
new_graph = self.backend.get_subgraph(graph, sampled_nodes)
return new_graph