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pydot_unittest.py
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pydot_unittest.py
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# coding=utf-8
"""Unit testing of `pydot`."""
# TODO:
# -test graph generation APIs (from adjacency, etc..)
# -test del_node, del_edge methods
# -test Common.set method
from __future__ import division
from __future__ import print_function
import argparse
from hashlib import sha256
import io
import os
import pickle
import string
import subprocess
import sys
import warnings
import chardet
import pydot
import unittest
DOT_BINARY_PATH = 'dot'
TESTS_DIR_1 = 'my_tests'
TESTS_DIR_2 = 'graphs'
class TestGraphAPI(unittest.TestCase):
def setUp(self):
self._reset_graphs()
def _reset_graphs(self):
self.graph_directed = pydot.Graph('testgraph',
graph_type='digraph')
def test_keep_graph_type(self):
g = pydot.Dot(graph_name='Test', graph_type='graph')
self.assertEqual( g.get_type(), 'graph' )
g = pydot.Dot(graph_name='Test', graph_type='digraph')
self.assertEqual( g.get_type(), 'digraph' )
def test_add_style(self):
g = pydot.Dot(graph_name='Test', graph_type='graph')
node = pydot.Node('mynode')
node.add_style('abc')
self.assertEqual( node.get_style(), 'abc' )
node.add_style('def')
self.assertEqual( node.get_style(), 'abc,def' )
node.add_style('ghi')
self.assertEqual( node.get_style(), 'abc,def,ghi' )
def test_create_simple_graph_with_node(self):
g = pydot.Dot()
g.set_type('digraph')
node = pydot.Node('legend')
node.set("shape", 'box')
g.add_node(node)
node.set('label', 'mine')
s = g.to_string()
s_0 = 'digraph G {\nlegend [label=mine, shape=box];\n}\n'
s_1 = 'digraph G {\nlegend [shape=box, label=mine];\n}\n'
assert s == s_0 or s == s_1, (s, s_0)
def test_attribute_with_implicit_value(self):
d='digraph {\na -> b[label="hi", decorate];\n}'
graphs = pydot.graph_from_dot_data(d)
(g,) = graphs
attrs = g.get_edges()[0].get_attributes()
self.assertEqual( 'decorate' in attrs, True )
def test_subgraphs(self):
g = pydot.Graph()
s = pydot.Subgraph("foo")
self.assertEqual( g.get_subgraphs(), [] )
self.assertEqual( g.get_subgraph_list(), [] )
g.add_subgraph(s)
self.assertEqual(g.get_subgraphs()[0].get_name(),
s.get_name())
self.assertEqual(g.get_subgraph_list()[0].get_name(),
s.get_name())
def test_graph_pickling(self):
g = pydot.Graph()
s = pydot.Subgraph("foo")
g.add_subgraph(s)
g.add_edge( pydot.Edge('A','B') )
g.add_edge( pydot.Edge('A','C') )
g.add_edge( pydot.Edge( ('D','E') ) )
g.add_node( pydot.Node( 'node!' ) )
pickle.dumps(g)
def test_unicode_ids(self):
node1 = '"aánñoöüé€"'
node2 = '"îôø®çßΩ"'
g = pydot.Dot()
g.set_charset('latin1')
g.add_node( pydot.Node( node1 ) )
g.add_node( pydot.Node( node2 ) )
g.add_edge( pydot.Edge( node1, node2 ) )
self.assertEqual( g.get_node(node1)[0].get_name(), node1 )
self.assertEqual( g.get_node(node2)[0].get_name(), node2 )
self.assertEqual( g.get_edges()[0].get_source(), node1 )
self.assertEqual( g.get_edges()[0].get_destination(), node2 )
graphs = pydot.graph_from_dot_data(g.to_string())
(g2,) = graphs
self.assertEqual( g2.get_node(node1)[0].get_name(), node1 )
self.assertEqual( g2.get_node(node2)[0].get_name(), node2 )
self.assertEqual( g2.get_edges()[0].get_source(), node1 )
self.assertEqual( g2.get_edges()[0].get_destination(), node2 )
def test_graph_with_shapefiles(self):
shapefile_dir = os.path.join(test_dir,
'from-past-to-future')
# image files are omitted from sdist
if not os.path.isdir(shapefile_dir):
warnings.warn('Skipping tests that involve images, '
'they can be found in the `git` repository.')
return
dot_file = os.path.join(shapefile_dir,
'from-past-to-future.dot')
pngs = dot_files = [
os.path.join(shapefile_dir, fname) for
fname in os.listdir(shapefile_dir)
if fname.endswith('.png')]
f = open(dot_file, 'rt')
graph_data = f.read()
f.close()
#g = dot_parser.parse_dot_data(graph_data)
graphs = pydot.graph_from_dot_data(graph_data)
(g,) = graphs
g.set_shape_files( pngs )
jpe_data = g.create( format='jpe' )
hexdigest = sha256(jpe_data).hexdigest()
hexdigest_original = self._render_with_graphviz(
dot_file, encoding='ascii')
self.assertEqual( hexdigest, hexdigest_original )
def test_multiple_graphs(self):
graph_data = 'graph A { a->b };\ngraph B {c->d}'
graphs = pydot.graph_from_dot_data(graph_data)
n = len(graphs)
assert n == 2, n
names = [g.get_name() for g in graphs]
assert names == ['A', 'B'], names
def _render_with_graphviz(self, filename, encoding):
with io.open(filename, 'rt', encoding=encoding) as stdin:
p = subprocess.Popen(
[DOT_BINARY_PATH, '-Tjpe'],
cwd=os.path.dirname(filename),
stdin=stdin,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
stdout_data, stderr_data = p.communicate()
return sha256(stdout_data).hexdigest()
def _render_with_pydot(self, filename, encoding):
c = pydot.graph_from_dot_file(filename, encoding=encoding)
sha = ''
for g in c:
jpe_data = g.create(format='jpe', encoding=encoding)
sha += sha256(jpe_data).hexdigest()
return sha
def test_my_regression_tests(self):
path = os.path.join(test_dir, TESTS_DIR_1)
self._render_and_compare_dot_files(path)
def test_graphviz_regression_tests(self):
path = os.path.join(test_dir, TESTS_DIR_2)
self._render_and_compare_dot_files(path)
def _render_and_compare_dot_files(self, directory):
# files that confuse `chardet`
encodings = {
'Latin1.dot': 'latin-1'}
dot_files = [
fname for fname in os.listdir(directory)
if fname.endswith('.dot')]
for fname in dot_files:
fpath = os.path.join(directory, fname)
with open(fpath, 'rb') as f:
s = f.read()
estimate = chardet.detect(s)
encoding = encodings.get(fname, estimate['encoding'])
os.sys.stdout.write('#')
os.sys.stdout.flush()
pydot_sha = self._render_with_pydot(fpath, encoding)
pydot_sha = self._render_with_graphviz(fpath, encoding)
assert pydot_sha == pydot_sha, (pydot_sha, pydot_sha)
def test_numeric_node_id(self):
self._reset_graphs()
self.graph_directed.add_node( pydot.Node(1) )
self.assertEqual(
self.graph_directed.get_nodes()[0].get_name(), '1')
def test_quoted_node_id(self):
self._reset_graphs()
self.graph_directed.add_node( pydot.Node('"node"') )
self.assertEqual(
self.graph_directed.get_nodes()[0].get_name(), '"node"')
def test_quoted_node_id_to_string_no_attributes(self):
self._reset_graphs()
self.graph_directed.add_node( pydot.Node('"node"') )
self.assertEqual(
self.graph_directed.get_nodes()[0].to_string(), '"node";')
def test_keyword_node_id(self):
self._reset_graphs()
self.graph_directed.add_node( pydot.Node('node') )
self.assertEqual(
self.graph_directed.get_nodes()[0].get_name(), 'node')
def test_keyword_node_id_to_string_no_attributes(self):
self._reset_graphs()
self.graph_directed.add_node( pydot.Node('node') )
self.assertEqual(
self.graph_directed.get_nodes()[0].to_string() , '' )
def test_keyword_node_id_to_string_with_attributes(self):
self._reset_graphs()
self.graph_directed.add_node( pydot.Node('node', shape='box') )
self.assertEqual(
self.graph_directed.get_nodes()[0].to_string(),
'node [shape=box];')
def test_names_of_a_thousand_nodes(self):
self._reset_graphs()
names = set([ 'node_%05d' % i for i in range(10**3) ])
for name in names:
self.graph_directed.add_node( pydot.Node(name, label=name) )
self.assertEqual(
set([n.get_name()
for n in self.graph_directed.get_nodes()]), names)
def test_executable_not_found_exception(self):
graph = pydot.Dot('graphname', graph_type='digraph')
self.assertRaises(Exception, graph.create, prog='dothehe')
def test_graph_add_node_argument_type(self):
self._reset_graphs()
self.assertRaises( TypeError, self.graph_directed.add_node, 1 )
self.assertRaises( TypeError, self.graph_directed.add_node, 'a' )
def test_graph_add_edge_argument_type(self):
self._reset_graphs()
self.assertRaises( TypeError, self.graph_directed.add_edge, 1 )
self.assertRaises( TypeError, self.graph_directed.add_edge, 'a' )
def test_graph_add_subgraph_argument_type(self):
self._reset_graphs()
self.assertRaises( TypeError, self.graph_directed.add_subgraph, 1 )
self.assertRaises( TypeError, self.graph_directed.add_subgraph, 'a' )
def test_quoting(self):
g = pydot.Dot()
g.add_node(pydot.Node("test", label=string.printable))
#print g.to_string()
data = g.create( format='jpe' )
self.assertEqual( len(data) > 0, True )
def test_dot_args(self):
g = pydot.Dot()
u = pydot.Node('a')
g.add_node(u)
g.write_svg('test.svg', prog=['twopi', '-Goverlap=scale'])
def check_path():
not_check = parse_args()
if not_check:
return
assert not os.path.isfile('setup.py'), (
'running out of source does not '
'test the installed `pydot`.')
def parse_args():
"""Return arguments."""
parser = argparse.ArgumentParser()
parser.add_argument(
'--no-check', action='store_true',
help=('do not require that no `setup.py` be present '
'in the current working directory.'))
args, unknown = parser.parse_known_args()
# avoid confusing `unittest`
sys.argv = [sys.argv[0]] + unknown
return args.no_check
if __name__ == '__main__':
check_path()
test_dir = os.path.dirname(sys.argv[0])
print('The tests are using `pydot` from: {pd}'.format(pd=pydot))
if sys.version_info >= (2, 7):
unittest.main(verbosity=2)
else:
unittest.main()