Files
deb-python-taskflow/taskflow/tests/unit/patterns/test_linear_flow.py
lin-hua-cheng b3e3e05a02 Fix order of assertEqual for unit.patterns
First parameter should be the expected value.

Change-Id: I06140e4be87663136483d1e7be3bc471fbbbf92b
Partial-Bug: #1357117
2015-10-17 01:22:21 -07:00

139 lines
4.8 KiB
Python

# -*- coding: utf-8 -*-
# Copyright (C) 2014 Yahoo! Inc. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
from taskflow.patterns import linear_flow as lf
from taskflow import retry
from taskflow import test
from taskflow.tests import utils
def _task(name, provides=None, requires=None):
return utils.ProvidesRequiresTask(name, provides, requires)
class LinearFlowTest(test.TestCase):
def test_linear_flow_starts_as_empty(self):
f = lf.Flow('test')
self.assertEqual(0, len(f))
self.assertEqual([], list(f))
self.assertEqual([], list(f.iter_links()))
self.assertEqual(set(), f.requires)
self.assertEqual(set(), f.provides)
expected = 'taskflow.patterns.linear_flow.Flow: test(len=0)'
self.assertEqual(expected, str(f))
def test_linear_flow_add_nothing(self):
f = lf.Flow('test')
result = f.add()
self.assertIs(f, result)
self.assertEqual(0, len(f))
def test_linear_flow_one_task(self):
f = lf.Flow('test')
task = _task(name='task1', requires=['a', 'b'], provides=['c', 'd'])
result = f.add(task)
self.assertIs(f, result)
self.assertEqual(1, len(f))
self.assertEqual([task], list(f))
self.assertEqual([], list(f.iter_links()))
self.assertEqual(set(['a', 'b']), f.requires)
self.assertEqual(set(['c', 'd']), f.provides)
def test_linear_flow_two_independent_tasks(self):
task1 = _task(name='task1')
task2 = _task(name='task2')
f = lf.Flow('test').add(task1, task2)
self.assertEqual(2, len(f))
self.assertEqual([task1, task2], list(f))
self.assertEqual([(task1, task2, {'invariant': True})],
list(f.iter_links()))
def test_linear_flow_two_dependent_tasks(self):
task1 = _task(name='task1', provides=['a'])
task2 = _task(name='task2', requires=['a'])
f = lf.Flow('test').add(task1, task2)
self.assertEqual(2, len(f))
self.assertEqual([task1, task2], list(f))
self.assertEqual([(task1, task2, {'invariant': True})],
list(f.iter_links()))
self.assertEqual(set(), f.requires)
self.assertEqual(set(['a']), f.provides)
def test_linear_flow_two_dependent_tasks_two_different_calls(self):
task1 = _task(name='task1', provides=['a'])
task2 = _task(name='task2', requires=['a'])
f = lf.Flow('test').add(task1).add(task2)
self.assertEqual(2, len(f))
self.assertEqual([task1, task2], list(f))
self.assertEqual([(task1, task2, {'invariant': True})],
list(f.iter_links()), )
def test_linear_flow_three_tasks(self):
task1 = _task(name='task1')
task2 = _task(name='task2')
task3 = _task(name='task3')
f = lf.Flow('test').add(task1, task2, task3)
self.assertEqual(3, len(f))
self.assertEqual([task1, task2, task3], list(f))
self.assertEqual([
(task1, task2, {'invariant': True}),
(task2, task3, {'invariant': True})
], list(f.iter_links()))
expected = 'taskflow.patterns.linear_flow.Flow: test(len=3)'
self.assertEqual(expected, str(f))
def test_linear_flow_with_retry(self):
ret = retry.AlwaysRevert(requires=['a'], provides=['b'])
f = lf.Flow('test', ret)
self.assertIs(f.retry, ret)
self.assertEqual('test_retry', ret.name)
self.assertEqual(set(['a']), f.requires)
self.assertEqual(set(['b']), f.provides)
def test_iter_nodes(self):
task1 = _task(name='task1')
task2 = _task(name='task2')
task3 = _task(name='task3')
f = lf.Flow('test').add(task1, task2, task3)
tasks = set([task1, task2, task3])
for (node, data) in f.iter_nodes():
self.assertTrue(node in tasks)
self.assertDictEqual({}, data)
def test_iter_links(self):
task1 = _task(name='task1')
task2 = _task(name='task2')
task3 = _task(name='task3')
f = lf.Flow('test').add(task1, task2, task3)
tasks = set([task1, task2, task3])
for (u, v, data) in f.iter_links():
self.assertTrue(u in tasks)
self.assertTrue(v in tasks)
self.assertDictEqual({'invariant': True}, data)