# -*- 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 import exceptions as exc from taskflow.patterns import graph_flow as gf 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 GraphFlowTest(test.TestCase): def test_invalid_decider_depth(self): g_1 = utils.ProgressingTask(name='g-1') g_2 = utils.ProgressingTask(name='g-2') for not_a_depth in ['not-a-depth', object(), 2, 3.4, False]: flow = gf.Flow('g') flow.add(g_1, g_2) self.assertRaises((ValueError, TypeError), flow.link, g_1, g_2, decider=lambda history: False, decider_depth=not_a_depth) def test_graph_flow_stringy(self): f = gf.Flow('test') expected = 'graph_flow.Flow: test(len=0)' self.assertEqual(expected, str(f)) task1 = _task(name='task1') task2 = _task(name='task2') task3 = _task(name='task3') f = gf.Flow('test') f.add(task1, task2, task3) expected = 'graph_flow.Flow: test(len=3)' self.assertEqual(expected, str(f)) def test_graph_flow_starts_as_empty(self): f = gf.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) def test_graph_flow_add_nothing(self): f = gf.Flow('test') result = f.add() self.assertIs(f, result) self.assertEqual(0, len(f)) def test_graph_flow_one_task(self): f = gf.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_graph_flow_two_independent_tasks(self): task1 = _task(name='task1') task2 = _task(name='task2') f = gf.Flow('test').add(task1, task2) self.assertEqual(2, len(f)) self.assertItemsEqual(f, [task1, task2]) self.assertEqual([], list(f.iter_links())) def test_graph_flow_two_dependent_tasks(self): task1 = _task(name='task1', provides=['a']) task2 = _task(name='task2', requires=['a']) f = gf.Flow('test').add(task1, task2) self.assertEqual(2, len(f)) self.assertItemsEqual(f, [task1, task2]) self.assertEqual([(task1, task2, {'reasons': set(['a'])})], list(f.iter_links())) self.assertEqual(set(), f.requires) self.assertEqual(set(['a']), f.provides) def test_graph_flow_two_dependent_tasks_two_different_calls(self): task1 = _task(name='task1', provides=['a']) task2 = _task(name='task2', requires=['a']) f = gf.Flow('test').add(task1).add(task2) self.assertEqual(2, len(f)) self.assertItemsEqual(f, [task1, task2]) self.assertEqual([(task1, task2, {'reasons': set(['a'])})], list(f.iter_links())) def test_graph_flow_two_task_same_provide(self): task1 = _task(name='task1', provides=['a', 'b']) task2 = _task(name='task2', provides=['a', 'c']) f = gf.Flow('test') f.add(task2, task1) self.assertEqual(set(['a', 'b', 'c']), f.provides) def test_graph_flow_ambiguous_provides(self): task1 = _task(name='task1', provides=['a', 'b']) task2 = _task(name='task2', provides=['a']) f = gf.Flow('test') f.add(task1, task2) self.assertEqual(set(['a', 'b']), f.provides) task3 = _task(name='task3', requires=['a']) self.assertRaises(exc.AmbiguousDependency, f.add, task3) def test_graph_flow_no_resolve_requires(self): task1 = _task(name='task1', provides=['a', 'b', 'c']) task2 = _task(name='task2', requires=['a', 'b']) f = gf.Flow('test') f.add(task1, task2, resolve_requires=False) self.assertEqual(set(['a', 'b']), f.requires) def test_graph_flow_no_resolve_existing(self): task1 = _task(name='task1', requires=['a', 'b']) task2 = _task(name='task2', provides=['a', 'b']) f = gf.Flow('test') f.add(task1) f.add(task2, resolve_existing=False) self.assertEqual(set(['a', 'b']), f.requires) def test_graph_flow_resolve_existing(self): task1 = _task(name='task1', requires=['a', 'b']) task2 = _task(name='task2', provides=['a', 'b']) f = gf.Flow('test') f.add(task1) f.add(task2, resolve_existing=True) self.assertEqual(set([]), f.requires) def test_graph_flow_with_retry(self): ret = retry.AlwaysRevert(requires=['a'], provides=['b']) f = gf.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_graph_flow_ordering(self): task1 = _task('task1', provides=set(['a', 'b'])) task2 = _task('task2', provides=['c'], requires=['a', 'b']) task3 = _task('task3', provides=[], requires=['c']) f = gf.Flow('test').add(task1, task2, task3) self.assertEqual(3, len(f)) self.assertItemsEqual(list(f.iter_links()), [ (task1, task2, {'reasons': set(['a', 'b'])}), (task2, task3, {'reasons': set(['c'])}) ]) def test_graph_flow_links(self): task1 = _task('task1') task2 = _task('task2') f = gf.Flow('test').add(task1, task2) linked = f.link(task1, task2) self.assertIs(linked, f) self.assertItemsEqual(list(f.iter_links()), [ (task1, task2, {'manual': True}) ]) def test_graph_flow_links_and_dependencies(self): task1 = _task('task1', provides=['a']) task2 = _task('task2', requires=['a']) f = gf.Flow('test').add(task1, task2) linked = f.link(task1, task2) self.assertIs(linked, f) expected_meta = { 'manual': True, 'reasons': set(['a']) } self.assertItemsEqual(list(f.iter_links()), [ (task1, task2, expected_meta) ]) def test_graph_flow_link_from_unknown_node(self): task1 = _task('task1') task2 = _task('task2') f = gf.Flow('test').add(task2) self.assertRaisesRegexp(ValueError, 'Node .* not found to link from', f.link, task1, task2) def test_graph_flow_link_to_unknown_node(self): task1 = _task('task1') task2 = _task('task2') f = gf.Flow('test').add(task1) self.assertRaisesRegexp(ValueError, 'Node .* not found to link to', f.link, task1, task2) def test_graph_flow_link_raises_on_cycle(self): task1 = _task('task1', provides=['a']) task2 = _task('task2', requires=['a']) f = gf.Flow('test').add(task1, task2) self.assertRaises(exc.DependencyFailure, f.link, task2, task1) def test_graph_flow_link_raises_on_link_cycle(self): task1 = _task('task1') task2 = _task('task2') f = gf.Flow('test').add(task1, task2) f.link(task1, task2) self.assertRaises(exc.DependencyFailure, f.link, task2, task1) def test_graph_flow_dependency_cycle(self): task1 = _task('task1', provides=['a'], requires=['c']) task2 = _task('task2', provides=['b'], requires=['a']) task3 = _task('task3', provides=['c'], requires=['b']) f = gf.Flow('test').add(task1, task2) self.assertRaises(exc.DependencyFailure, f.add, task3) def test_iter_nodes(self): task1 = _task('task1', provides=['a'], requires=['c']) task2 = _task('task2', provides=['b'], requires=['a']) task3 = _task('task3', provides=['c']) f1 = gf.Flow('nested') f1.add(task3) tasks = set([task1, task2, f1]) f = gf.Flow('test').add(task1, task2, f1) for (n, data) in f.iter_nodes(): self.assertTrue(n in tasks) self.assertDictEqual({}, data) def test_iter_links(self): task1 = _task('task1') task2 = _task('task2') task3 = _task('task3') f1 = gf.Flow('nested') f1.add(task3) tasks = set([task1, task2, f1]) f = gf.Flow('test').add(task1, task2, f1) for (u, v, data) in f.iter_links(): self.assertTrue(u in tasks) self.assertTrue(v in tasks) self.assertDictEqual({}, data) class TargetedGraphFlowTest(test.TestCase): def test_targeted_flow_restricts(self): f = gf.TargetedFlow("test") task1 = _task('task1', provides=['a'], requires=[]) task2 = _task('task2', provides=['b'], requires=['a']) task3 = _task('task3', provides=[], requires=['b']) task4 = _task('task4', provides=[], requires=['b']) f.add(task1, task2, task3, task4) f.set_target(task3) self.assertEqual(3, len(f)) self.assertItemsEqual(f, [task1, task2, task3]) self.assertNotIn('c', f.provides) def test_targeted_flow_reset(self): f = gf.TargetedFlow("test") task1 = _task('task1', provides=['a'], requires=[]) task2 = _task('task2', provides=['b'], requires=['a']) task3 = _task('task3', provides=[], requires=['b']) task4 = _task('task4', provides=['c'], requires=['b']) f.add(task1, task2, task3, task4) f.set_target(task3) f.reset_target() self.assertEqual(4, len(f)) self.assertItemsEqual(f, [task1, task2, task3, task4]) self.assertIn('c', f.provides) def test_targeted_flow_bad_target(self): f = gf.TargetedFlow("test") task1 = _task('task1', provides=['a'], requires=[]) task2 = _task('task2', provides=['b'], requires=['a']) f.add(task1) self.assertRaisesRegexp(ValueError, '^Node .* not found', f.set_target, task2) def test_targeted_flow_one_node(self): f = gf.TargetedFlow("test") task1 = _task('task1', provides=['a'], requires=[]) f.add(task1) f.set_target(task1) self.assertEqual(1, len(f)) self.assertItemsEqual(f, [task1]) def test_recache_on_add(self): f = gf.TargetedFlow("test") task1 = _task('task1', provides=[], requires=['a']) f.add(task1) f.set_target(task1) self.assertEqual(1, len(f)) task2 = _task('task2', provides=['a'], requires=[]) f.add(task2) self.assertEqual(2, len(f)) def test_recache_on_add_no_deps(self): f = gf.TargetedFlow("test") task1 = _task('task1', provides=[], requires=[]) f.add(task1) f.set_target(task1) self.assertEqual(1, len(f)) task2 = _task('task2', provides=[], requires=[]) f.add(task2) self.assertEqual(1, len(f)) def test_recache_on_link(self): f = gf.TargetedFlow("test") task1 = _task('task1', provides=[], requires=[]) task2 = _task('task2', provides=[], requires=[]) f.add(task1, task2) f.set_target(task1) self.assertEqual(1, len(f)) f.link(task2, task1) self.assertEqual(2, len(f)) self.assertEqual([(task2, task1, {'manual': True})], list(f.iter_links()), )