def test_edges_equal(first, second, third, expected):
graph_1 = undirected.Graph()
graph_2 = undirected.Graph()
graph_1.edges.append(undirected.Edge({undirected.Vertex(first), undirected.Vertex(second)}))
graph_2.edges.append(undirected.Edge({undirected.Vertex(first), undirected.Vertex(third)}))
assert (graph_1 == graph_2) is expected
def test_is_hamiltonian_cycle(expected):
graph = undirected.Graph()
graph.edges.append(undirected.Edge({undirected.Vertex(1), undirected.Vertex(2)}))
graph.edges.append(undirected.Edge({undirected.Vertex(2), undirected.Vertex(3)}))
if expected:
graph.edges.append(undirected.Edge({undirected.Vertex(3), undirected.Vertex(1)}))
else:
graph.edges.append(undirected.Edge({undirected.Vertex(3), undirected.Vertex(5)}))
assert graph.is_hamiltonian_cycle() is expected
def test_edge_remove_from_edges():
edge = undirected.Edge({undirected.Vertex(1), undirected.Vertex(2)})
graph = undirected.Graph()
graph.edges.append(edge)
graph.edges.remove(edge)
assert edge not in graph
def test_edge_in_edges(expected):
edge = undirected.Edge({undirected.Vertex(1), undirected.Vertex(2)})
graph = undirected.Graph()
if expected:
graph.edges.append(edge)
assert (edge in graph) is expected
def test_min_degree_vertex(graph, expected):
vertices = {}
for left, right in graph:
if left not in vertices:
ver_1 = undirected.Vertex(left)
vertices[left] = ver_1
else:
ver_1 = vertices[left]
if right not in vertices:
ver_2 = undirected.Vertex(right)
vertices[right] = ver_2
else:
ver_2 = vertices[right]
edge = undirected.Edge({ver_1, ver_2})
ver_1.edges.edges.append(edge)
ver_2.edges.edges.append(edge)
assert undirected.get_vertex_with_min_degree(vertices.values()) == vertices[expected]
def test_cycle_checker(graph: list, expected):
vertices = {}
graph_for_check = undirected.Graph()
for left, right in graph:
if left not in vertices:
ver_1 = undirected.Vertex(left)
vertices[left] = ver_1
else:
ver_1 = vertices[left]
if right not in vertices:
ver_2 = undirected.Vertex(right)
vertices[right] = ver_2
else:
ver_2 = vertices[right]
edge = undirected.Edge({ver_1, ver_2})
ver_1.edges.edges.append(edge)
ver_2.edges.edges.append(edge)
graph_for_check.edges.append(edge)
assert graph_for_check.has_cycle() is expected
def test_edge_equal(first, second, third, expected):
v1 = undirected.Vertex(first)
v2 = undirected.Vertex(second)
v3 = undirected.Vertex(third)
assert (undirected.Edge({v1, v2}) == undirected.Edge({v1, v3})) is expected