def test_closest_nodes_only_additional(empty_routing_table):
target = NodeIDFactory()
nodes = [NodeIDFactory() for _ in range(10)]
closest_nodes = list(iter_closest_nodes(target, empty_routing_table,
nodes))
assert closest_nodes == sorted(
nodes, key=lambda node: compute_distance(target, node))
def test_closest_nodes_only_routing(empty_routing_table):
target = NodeIDFactory()
nodes = [NodeIDFactory() for _ in range(10)]
for node in nodes:
empty_routing_table.update(node)
closest_nodes = list(iter_closest_nodes(target, empty_routing_table, []))
assert closest_nodes == sorted(
nodes, key=lambda node: compute_distance(target, node))
def test_lookup_generator_mixed(empty_routing_table):
target = NodeIDFactory()
nodes = sorted([NodeIDFactory() for _ in range(10)],
key=lambda node: compute_distance(node, target))
nodes_in_routing_table = nodes[:3] + nodes[6:8]
nodes_in_additional = nodes[3:6] + nodes[8:]
for node in nodes_in_routing_table:
empty_routing_table.update(node)
closest_nodes = list(
iter_closest_nodes(target, empty_routing_table, nodes_in_additional))
assert closest_nodes == nodes
def test_distance(left_node_id, right_node_id, distance):
assert compute_distance(left_node_id, right_node_id) == distance
assert compute_distance(right_node_id, left_node_id) == distance
def dist(node: NodeID) -> float:
if node is not None:
return compute_distance(target, node)
else:
return math.inf