ai-content-maker/.venv/Lib/site-packages/networkx/readwrite/tests/test_sparse6.py

174 lines
5.3 KiB
Python

import tempfile
from io import BytesIO
import pytest
import networkx as nx
from networkx.utils import edges_equal, nodes_equal
class TestSparseGraph6:
def test_from_sparse6_bytes(self):
data = b":Q___eDcdFcDeFcE`GaJ`IaHbKNbLM"
G = nx.from_sparse6_bytes(data)
assert nodes_equal(
sorted(G.nodes()),
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17],
)
assert edges_equal(
G.edges(),
[
(0, 1),
(0, 2),
(0, 3),
(1, 12),
(1, 14),
(2, 13),
(2, 15),
(3, 16),
(3, 17),
(4, 7),
(4, 9),
(4, 11),
(5, 6),
(5, 8),
(5, 9),
(6, 10),
(6, 11),
(7, 8),
(7, 10),
(8, 12),
(9, 15),
(10, 14),
(11, 13),
(12, 16),
(13, 17),
(14, 17),
(15, 16),
],
)
def test_from_bytes_multigraph_graph(self):
graph_data = b":An"
G = nx.from_sparse6_bytes(graph_data)
assert type(G) == nx.Graph
multigraph_data = b":Ab"
M = nx.from_sparse6_bytes(multigraph_data)
assert type(M) == nx.MultiGraph
def test_read_sparse6(self):
data = b":Q___eDcdFcDeFcE`GaJ`IaHbKNbLM"
G = nx.from_sparse6_bytes(data)
fh = BytesIO(data)
Gin = nx.read_sparse6(fh)
assert nodes_equal(G.nodes(), Gin.nodes())
assert edges_equal(G.edges(), Gin.edges())
def test_read_many_graph6(self):
# Read many graphs into list
data = b":Q___eDcdFcDeFcE`GaJ`IaHbKNbLM\n" b":Q___dCfDEdcEgcbEGbFIaJ`JaHN`IM"
fh = BytesIO(data)
glist = nx.read_sparse6(fh)
assert len(glist) == 2
for G in glist:
assert nodes_equal(
G.nodes(),
[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17],
)
class TestWriteSparse6:
"""Unit tests for writing graphs in the sparse6 format.
Most of the test cases were checked against the sparse6 encoder in Sage.
"""
def test_null_graph(self):
G = nx.null_graph()
result = BytesIO()
nx.write_sparse6(G, result)
assert result.getvalue() == b">>sparse6<<:?\n"
def test_trivial_graph(self):
G = nx.trivial_graph()
result = BytesIO()
nx.write_sparse6(G, result)
assert result.getvalue() == b">>sparse6<<:@\n"
def test_empty_graph(self):
G = nx.empty_graph(5)
result = BytesIO()
nx.write_sparse6(G, result)
assert result.getvalue() == b">>sparse6<<:D\n"
def test_large_empty_graph(self):
G = nx.empty_graph(68)
result = BytesIO()
nx.write_sparse6(G, result)
assert result.getvalue() == b">>sparse6<<:~?@C\n"
def test_very_large_empty_graph(self):
G = nx.empty_graph(258049)
result = BytesIO()
nx.write_sparse6(G, result)
assert result.getvalue() == b">>sparse6<<:~~???~?@\n"
def test_complete_graph(self):
G = nx.complete_graph(4)
result = BytesIO()
nx.write_sparse6(G, result)
assert result.getvalue() == b">>sparse6<<:CcKI\n"
def test_no_header(self):
G = nx.complete_graph(4)
result = BytesIO()
nx.write_sparse6(G, result, header=False)
assert result.getvalue() == b":CcKI\n"
def test_padding(self):
codes = (b":Cdv", b":DaYn", b":EaYnN", b":FaYnL", b":GaYnLz")
for n, code in enumerate(codes, start=4):
G = nx.path_graph(n)
result = BytesIO()
nx.write_sparse6(G, result, header=False)
assert result.getvalue() == code + b"\n"
def test_complete_bipartite(self):
G = nx.complete_bipartite_graph(6, 9)
result = BytesIO()
nx.write_sparse6(G, result)
# Compared with sage
expected = b">>sparse6<<:Nk" + b"?G`cJ" * 9 + b"\n"
assert result.getvalue() == expected
def test_read_write_inverse(self):
for i in list(range(13)) + [31, 47, 62, 63, 64, 72]:
m = min(2 * i, i * i // 2)
g = nx.random_graphs.gnm_random_graph(i, m, seed=i)
gstr = BytesIO()
nx.write_sparse6(g, gstr, header=False)
# Strip the trailing newline.
gstr = gstr.getvalue().rstrip()
g2 = nx.from_sparse6_bytes(gstr)
assert g2.order() == g.order()
assert edges_equal(g2.edges(), g.edges())
def test_no_directed_graphs(self):
with pytest.raises(nx.NetworkXNotImplemented):
nx.write_sparse6(nx.DiGraph(), BytesIO())
def test_write_path(self):
# On Windows, we can't reopen a file that is open
# So, for test we get a valid name from tempfile but close it.
with tempfile.NamedTemporaryFile() as f:
fullfilename = f.name
# file should be closed now, so write_sparse6 can open it
nx.write_sparse6(nx.null_graph(), fullfilename)
fh = open(fullfilename, mode="rb")
assert fh.read() == b">>sparse6<<:?\n"
fh.close()
import os
os.remove(fullfilename)