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samba-mirror/python/samba/tests/graph.py
Douglas Bagnall aecb2b779b python: remove all 'from __future__ import print_function'
This made Python 2's print behave like Python 3's print().

In some cases, where we had:

   from __future__ import print_function
   """Intended module documentation..."""

this will have the side effect of making the intended module documentation
work as the actual module documentation (i.e. becoming __doc__), because
it is once again the first statement in the module.

Signed-off-by: Douglas Bagnall <douglas.bagnall@catalyst.net.nz>
Reviewed-by: Andrew Bartlett <abartlet@samba.org>
2021-04-28 03:43:34 +00:00

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# -*- coding: utf-8 -*-
# Test graph dot file generation
#
# Copyright (C) Andrew Bartlett 2018.
#
# Written by Douglas Bagnall <douglas.bagnall@catalyst.net.nz>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""Tests for samba.graph"""
import samba
import samba.tests
from samba import graph
import re
import itertools
class DotFileTests(samba.tests.TestCaseInTempDir):
def assertMatch(self, exp, s):
m = re.match(exp, s)
if m is None:
self.fail("%r did not match /%s/" % (s, exp))
return m
def assertHeader(self, lines, title, directed):
self.assertEqual(lines[0], '/* generated by samba */')
if directed:
exp = r'^digraph \w+ {$'
else:
exp = r'^graph \w+ {$'
self.assertMatch(exp, lines[1])
m = self.assertMatch(r'^label="([\w ]+)";$', lines[2])
self.assertEqual(m.group(1), title)
self.assertMatch(r'^fontsize=10;$', lines[3])
self.assertMatch(r'$', lines[4])
self.assertEqual(lines[5], 'node[fontname=Helvetica; fontsize=10];')
self.assertEqual(lines[6], '')
def assertVertices(self, lines, names):
for n, line in zip(names, lines):
m = self.assertMatch(r'^"(\w+)";$', line)
self.assertEqual(n, m.group(1))
def assertEdges(self, lines, edges, directed):
connector = '->' if directed else '--'
for edge, line in zip(edges, lines):
a, b = edge
m = self.assertMatch((r'^"(\w+)" ([>-]{2}) '
r'"(\w+)" ?(?:\[([^\]])\])?;$'),
line)
self.assertEqual(m.group(1), a)
self.assertEqual(m.group(2), connector)
self.assertEqual(m.group(3), b)
if m.group(4):
self.assertMatch(r'^[\w ]*$', m.group(4))
def test_basic_dot_files(self):
vertices = tuple('abcdefgh')
all_edges = tuple(itertools.combinations(vertices, 2))
line_edges = list(zip(vertices[1:], vertices[:-1]))
ring_edges = line_edges + [(vertices[0], vertices[-1])]
no_edges = []
# even join to even numbers, odd to odd
disjoint_edges = [(a, b) for a, b in all_edges if
ord(a) ^ ord(b) == 0]
for name, edges in (('all', all_edges),
('line', line_edges),
('ring', ring_edges),
('no', no_edges),
('disjoint', disjoint_edges)):
for directed, tag in ((True, "directed"),
(False, "undirected")):
title = "%s %s" % (name, tag)
g = graph.dot_graph(vertices, edges,
directed=directed,
title=title)
lines = g.split('\n')
self.assertHeader(lines, title, directed)
self.assertVertices(lines[7:], vertices)
self.assertEdges(lines[len(vertices) + 7:], edges, directed)
class DistanceTests(samba.tests.TestCase):
def setUp(self):
super(DistanceTests, self).setUp()
# a sorted list of colour set names.
self.sorted_colour_sets = sorted(
graph.COLOUR_SETS,
# return '' for None, so it's sortable.
key=lambda name: name or '')
def test_simple_distance(self):
edges = [('ant', 'bat'),
('cat', 'dog'),
('ant', 'elephant'),
('elephant', 'dog'),
('bat', 'dog'),
('frog', 'elephant'),
('frog', 'cat'),
('bat', 'elephant'),
('elephant', 'cat'),
('cat', 'ant'),
('cat', 'dog')]
expected = {
"utf8 True, colour None": '''
destination
╭────── ant
│╭───── bat
││╭──── cat
│││╭─── dog
││││╭── elephant
source │││││╭─ frog
ant ·1221-
bat 3·211-
cat 12·12-
dog ---·--
elephant 2311·-
frog 23121·''',
'utf8 True, colour ansi': '''
destination
╭────── ant
│╭───── bat
││╭──── cat
│││╭─── dog
││││╭── elephant
source │││││╭─ frog
 ant ·1221-
 bat 3·211-
 cat 12·12-
 dog ---·--
elephant 2311·-
 frog 23121·
''',
'utf8 True, colour ansi-heatmap': '''
destination
╭────── ant
│╭───── bat
││╭──── cat
│││╭─── dog
││││╭── elephant
source │││││╭─ frog
 ant ·1221-
 bat 3·211-
 cat 12·12-
 dog ---·--
elephant 2311·-
 frog 23121·
''',
'utf8 True, colour xterm-256color': '''
destination
╭────── ant
│╭───── bat
││╭──── cat
│││╭─── dog
││││╭── elephant
source │││││╭─ frog
 ant ·1221-
 bat 3·211-
 cat 12·12-
 dog ---·--
elephant 2311·-
 frog 23121·
''',
'utf8 True, colour xterm-256color-heatmap': '''
destination
╭────── ant
│╭───── bat
││╭──── cat
│││╭─── dog
││││╭── elephant
source │││││╭─ frog
 ant ·1221-
 bat 3·211-
 cat 12·12-
 dog ---·--
elephant 2311·-
 frog 23121·
''',
'utf8 False, colour None': '''
destination
,------ ant
|,----- bat
||,---- cat
|||,--- dog
||||,-- elephant
source |||||,- frog
ant 01221-
bat 30211-
cat 12012-
dog ---0--
elephant 23110-
frog 231210
''',
'utf8 False, colour ansi': '''
destination
,------ ant
|,----- bat
||,---- cat
|||,--- dog
||||,-- elephant
source |||||,- frog
 ant 01221-
 bat 30211-
 cat 12012-
 dog ---0--
elephant 23110-
 frog 231210
''',
'utf8 False, colour ansi-heatmap': '''
destination
,------ ant
|,----- bat
||,---- cat
|||,--- dog
||||,-- elephant
source |||||,- frog
 ant 01221-
 bat 30211-
 cat 12012-
 dog ---0--
elephant 23110-
 frog 231210
''',
'utf8 False, colour xterm-256color': '''
destination
,------ ant
|,----- bat
||,---- cat
|||,--- dog
||||,-- elephant
source |||||,- frog
 ant 01221-
 bat 30211-
 cat 12012-
 dog ---0--
elephant 23110-
 frog 231210
''',
'utf8 False, colour xterm-256color-heatmap': '''
destination
,------ ant
|,----- bat
||,---- cat
|||,--- dog
||||,-- elephant
source |||||,- frog
 ant 01221-
 bat 30211-
 cat 12012-
 dog ---0--
elephant 23110-
 frog 231210
'''
}
for utf8 in (True, False):
for colour in self.sorted_colour_sets:
k = 'utf8 %s, colour %s' % (utf8, colour)
s = graph.distance_matrix(None, edges, utf8=utf8,
colour=colour)
self.assertStringsEqual(s, expected[k], strip=True,
msg='Wrong output: %s\n\n%s' % (k, s))
def test_simple_distance2(self):
edges = [('ant', 'bat'),
('cat', 'bat'),
('bat', 'ant'),
('ant', 'cat')]
expected = {
'utf8 True, colour None': '''
destination
╭─── ant
│╭── bat
source ││╭─ cat
ant ·11
bat 1·2
cat 21·
''',
'utf8 True, colour ansi': '''
destination
╭─── ant
│╭── bat
source ││╭─ cat
 ant ·11
 bat 1·2
 cat 21·
''',
'utf8 True, colour ansi-heatmap': '''
destination
╭─── ant
│╭── bat
source ││╭─ cat
 ant ·11
 bat 1·2
 cat 21·
''',
'utf8 True, colour xterm-256color': '''
destination
╭─── ant
│╭── bat
source ││╭─ cat
 ant ·11
 bat 1·2
 cat 21·
''',
'utf8 True, colour xterm-256color-heatmap': '''
destination
╭─── ant
│╭── bat
source ││╭─ cat
 ant ·11
 bat 1·2
 cat 21·
''',
'utf8 False, colour None': '''
destination
,--- ant
|,-- bat
source ||,- cat
ant 011
bat 102
cat 210
''',
'utf8 False, colour ansi': '''
destination
,--- ant
|,-- bat
source ||,- cat
 ant 011
 bat 102
 cat 210
''',
'utf8 False, colour ansi-heatmap': '''
destination
,--- ant
|,-- bat
source ||,- cat
 ant 011
 bat 102
 cat 210
''',
'utf8 False, colour xterm-256color': '''
destination
,--- ant
|,-- bat
source ||,- cat
 ant 011
 bat 102
 cat 210
''',
'utf8 False, colour xterm-256color-heatmap': '''
destination
,--- ant
|,-- bat
source ||,- cat
 ant 011
 bat 102
 cat 210
'''
}
for utf8 in (True, False):
for colour in self.sorted_colour_sets:
k = 'utf8 %s, colour %s' % (utf8, colour)
s = graph.distance_matrix(None, edges, utf8=utf8,
colour=colour)
self.assertStringsEqual(s, expected[k], strip=True,
msg='Wrong output: %s\n\n%s' % (k, s))
def test_simple_distance3(self):
edges = [('ant', 'bat'),
('bat', 'cat'),
('cat', 'dog'),
('dog', 'ant'),
('dog', 'eel')]
expected = {
'utf8 True, colour None': '''
destination
╭───── ant
│╭──── bat
││╭─── cat
│││╭── dog
source ││││╭─ eel
ant ·1234
bat 3·123
cat 23·12
dog 123·1
eel ----·
''',
'utf8 True, colour ansi': '''
destination
╭───── ant
│╭──── bat
││╭─── cat
│││╭── dog
source ││││╭─ eel
 ant ·1234
 bat 3·123
 cat 23·12
 dog 123·1
 eel ----·
''',
'utf8 True, colour ansi-heatmap': '''
destination
╭───── ant
│╭──── bat
││╭─── cat
│││╭── dog
source ││││╭─ eel
 ant ·1234
 bat 3·123
 cat 23·12
 dog 123·1
 eel ----·
''',
'utf8 True, colour xterm-256color': '''
destination
╭───── ant
│╭──── bat
││╭─── cat
│││╭── dog
source ││││╭─ eel
 ant ·1234
 bat 3·123
 cat 23·12
 dog 123·1
 eel ----·
''',
'utf8 True, colour xterm-256color-heatmap': '''
destination
╭───── ant
│╭──── bat
││╭─── cat
│││╭── dog
source ││││╭─ eel
 ant ·1234
 bat 3·123
 cat 23·12
 dog 123·1
 eel ----·
''',
'utf8 False, colour None': '''
destination
,----- ant
|,---- bat
||,--- cat
|||,-- dog
source ||||,- eel
ant 01234
bat 30123
cat 23012
dog 12301
eel ----0
''',
'utf8 False, colour ansi': '''
destination
,----- ant
|,---- bat
||,--- cat
|||,-- dog
source ||||,- eel
 ant 01234
 bat 30123
 cat 23012
 dog 12301
 eel ----0
''',
'utf8 False, colour ansi-heatmap': '''
destination
,----- ant
|,---- bat
||,--- cat
|||,-- dog
source ||||,- eel
 ant 01234
 bat 30123
 cat 23012
 dog 12301
 eel ----0
''',
'utf8 False, colour xterm-256color':
''' destination
,----- ant
|,---- bat
||,--- cat
|||,-- dog
source ||||,- eel
 ant 01234
 bat 30123
 cat 23012
 dog 12301
 eel ----0
''',
'utf8 False, colour xterm-256color-heatmap': '''
destination
,----- ant
|,---- bat
||,--- cat
|||,-- dog
source ||||,- eel
 ant 01234
 bat 30123
 cat 23012
 dog 12301
 eel ----0
'''
}
for utf8 in (True, False):
for colour in self.sorted_colour_sets:
k = 'utf8 %s, colour %s' % (utf8, colour)
s = graph.distance_matrix(None, edges, utf8=utf8,
colour=colour)
self.assertStringsEqual(s, expected[k], strip=True,
msg='Wrong output: %s\n\n%s' % (k, s))