def test_branch_list_without_dag_run(self):
"""This checks if the BranchPythonOperator supports branching off to a list of tasks."""
branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: ['branch_1', 'branch_2'])
self.branch_1.set_upstream(branch_op)
self.branch_2.set_upstream(branch_op)
self.branch_3 = DummyOperator(task_id='branch_3', dag=self.dag)
self.branch_3.set_upstream(branch_op)
self.dag.clear()
branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
with create_session() as session:
tis = session.query(TI).filter(
TI.dag_id == self.dag.dag_id,
TI.execution_date == DEFAULT_DATE
)
expected = {
"make_choice": State.SUCCESS,
"branch_1": State.NONE,
"branch_2": State.NONE,
"branch_3": State.SKIPPED,
}
for ti in tis:
if ti.task_id in expected:
self.assertEqual(ti.state, expected[ti.task_id])
else:
raise Exception
def test_with_skip_in_branch_downstream_dependencies2(self):
branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_2')
branch_op >> self.branch_1 >> self.branch_2
branch_op >> self.branch_2
self.dag.clear()
dr = self.dag.create_dagrun(
run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING
)
branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.SKIPPED)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.NONE)
else:
raise Exception
def test_without_dag_run(self):
"""This checks the defensive against non existent tasks in a dag run"""
branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_1.set_upstream(branch_op)
self.branch_2.set_upstream(branch_op)
self.dag.clear()
branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
with create_session() as session:
tis = session.query(TI).filter(
TI.dag_id == self.dag.dag_id,
TI.execution_date == DEFAULT_DATE
)
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
# should exist with state None
self.assertEqual(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise Exception
class BranchOperatorTest(unittest.TestCase):
def setUp(self):
self.dag = DAG('branch_operator_test',
default_args={
'owner': 'airflow',
'start_date': DEFAULT_DATE},
schedule_interval=INTERVAL)
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_1 = DummyOperator(task_id='branch_1', dag=self.dag)
self.branch_1.set_upstream(self.branch_op)
self.branch_2 = DummyOperator(task_id='branch_2', dag=self.dag)
self.branch_2.set_upstream(self.branch_op)
self.dag.clear()
def test_without_dag_run(self):
"""This checks the defensive against non existent tasks in a dag run"""
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
session = Session()
tis = session.query(TI).filter(
TI.dag_id == self.dag.dag_id,
TI.execution_date == DEFAULT_DATE
)
session.close()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEquals(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
# should exist with state None
self.assertEquals(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEquals(ti.state, State.SKIPPED)
else:
raise
def test_with_dag_run(self):
dr = self.dag.create_dagrun(
run_id="manual__",
start_date=datetime.datetime.now(),
execution_date=DEFAULT_DATE,
state=State.RUNNING
)
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEquals(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEquals(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEquals(ti.state, State.SKIPPED)
else:
raise
def test_clear_skipped_downstream_task(self):
"""
After a downstream task is skipped by BranchPythonOperator, clearing the skipped task
should not cause it to be executed.
"""
branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
branches = [self.branch_1, self.branch_2]
branch_op >> branches
self.dag.clear()
dr = self.dag.create_dagrun(run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING)
branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
for task in branches:
task.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise
children_tis = [
ti for ti in tis
if ti.task_id in branch_op.get_direct_relative_ids()
]
# Clear the children tasks.
with create_session() as session:
clear_task_instances(children_tis, session=session, dag=self.dag)
# Run the cleared tasks again.
for task in branches:
task.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
# Check if the states are correct after children tasks are cleared.
for ti in dr.get_task_instances():
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise
def test_xcom_push(self):
branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_1.set_upstream(branch_op)
self.branch_2.set_upstream(branch_op)
self.dag.clear()
dr = self.dag.create_dagrun(
run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING
)
branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(
ti.xcom_pull(task_ids='make_choice'), 'branch_1')
class BranchOperatorTest(unittest.TestCase):
@classmethod
def setUpClass(cls):
super(BranchOperatorTest, cls).setUpClass()
with create_session() as session:
session.query(DagRun).delete()
session.query(TI).delete()
def setUp(self):
self.dag = DAG('branch_operator_test',
default_args={
'owner': 'airflow',
'start_date': DEFAULT_DATE},
schedule_interval=INTERVAL)
self.branch_1 = DummyOperator(task_id='branch_1', dag=self.dag)
self.branch_2 = DummyOperator(task_id='branch_2', dag=self.dag)
def tearDown(self):
super(BranchOperatorTest, self).tearDown()
with create_session() as session:
session.query(DagRun).delete()
session.query(TI).delete()
def test_without_dag_run(self):
"""This checks the defensive against non existent tasks in a dag run"""
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_1.set_upstream(self.branch_op)
self.branch_2.set_upstream(self.branch_op)
self.dag.clear()
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
with create_session() as session:
tis = session.query(TI).filter(
TI.dag_id == self.dag.dag_id,
TI.execution_date == DEFAULT_DATE
)
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
# should exist with state None
self.assertEqual(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise Exception
def test_branch_list_without_dag_run(self):
"""This checks if the BranchPythonOperator supports branching off to a list of tasks."""
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: ['branch_1', 'branch_2'])
self.branch_1.set_upstream(self.branch_op)
self.branch_2.set_upstream(self.branch_op)
self.branch_3 = DummyOperator(task_id='branch_3', dag=self.dag)
self.branch_3.set_upstream(self.branch_op)
self.dag.clear()
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
with create_session() as session:
tis = session.query(TI).filter(
TI.dag_id == self.dag.dag_id,
TI.execution_date == DEFAULT_DATE
)
expected = {
"make_choice": State.SUCCESS,
"branch_1": State.NONE,
"branch_2": State.NONE,
"branch_3": State.SKIPPED,
}
for ti in tis:
if ti.task_id in expected:
self.assertEqual(ti.state, expected[ti.task_id])
else:
raise Exception
def test_with_dag_run(self):
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_1.set_upstream(self.branch_op)
self.branch_2.set_upstream(self.branch_op)
self.dag.clear()
dr = self.dag.create_dagrun(
run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING
)
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise Exception
def test_with_skip_in_branch_downstream_dependencies(self):
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_op >> self.branch_1 >> self.branch_2
self.branch_op >> self.branch_2
self.dag.clear()
dr = self.dag.create_dagrun(
run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING
)
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.NONE)
else:
raise Exception
def test_with_skip_in_branch_downstream_dependencies2(self):
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_2')
self.branch_op >> self.branch_1 >> self.branch_2
self.branch_op >> self.branch_2
self.dag.clear()
dr = self.dag.create_dagrun(
run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING
)
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.SKIPPED)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.NONE)
else:
raise Exception
class BranchOperatorTest(unittest.TestCase):
@classmethod
def setUpClass(cls):
super(BranchOperatorTest, cls).setUpClass()
session = Session()
session.query(DagRun).delete()
session.query(TI).delete()
session.commit()
session.close()
def setUp(self):
self.dag = DAG('branch_operator_test',
default_args={
'owner': 'airflow',
'start_date': DEFAULT_DATE
},
schedule_interval=INTERVAL)
self.branch_1 = DummyOperator(task_id='branch_1', dag=self.dag)
self.branch_2 = DummyOperator(task_id='branch_2', dag=self.dag)
def tearDown(self):
super(BranchOperatorTest, self).tearDown()
session = Session()
session.query(DagRun).delete()
session.query(TI).delete()
print(len(session.query(DagRun).all()))
session.commit()
session.close()
def test_without_dag_run(self):
"""This checks the defensive against non existent tasks in a dag run"""
self.branch_op = BranchPythonOperator(
task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_1.set_upstream(self.branch_op)
self.branch_2.set_upstream(self.branch_op)
self.dag.clear()
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
session = Session()
tis = session.query(TI).filter(TI.dag_id == self.dag.dag_id,
TI.execution_date == DEFAULT_DATE)
session.close()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
# should exist with state None
self.assertEqual(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise
def test_branch_list_without_dag_run(self):
"""This checks if the BranchPythonOperator supports branching off to a list of tasks."""
self.branch_op = BranchPythonOperator(
task_id='make_choice',
dag=self.dag,
python_callable=lambda: ['branch_1', 'branch_2'])
self.branch_1.set_upstream(self.branch_op)
self.branch_2.set_upstream(self.branch_op)
self.branch_3 = DummyOperator(task_id='branch_3', dag=self.dag)
self.branch_3.set_upstream(self.branch_op)
self.dag.clear()
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
session = Session()
tis = session.query(TI).filter(TI.dag_id == self.dag.dag_id,
TI.execution_date == DEFAULT_DATE)
session.close()
expected = {
"make_choice": State.SUCCESS,
"branch_1": State.NONE,
"branch_2": State.NONE,
"branch_3": State.SKIPPED,
}
for ti in tis:
if ti.task_id in expected:
self.assertEqual(ti.state, expected[ti.task_id])
else:
raise
def test_with_dag_run(self):
self.branch_op = BranchPythonOperator(
task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_1.set_upstream(self.branch_op)
self.branch_2.set_upstream(self.branch_op)
self.dag.clear()
dr = self.dag.create_dagrun(run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING)
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise
def test_with_skip_in_branch_downstream_dependencies(self):
self.branch_op = BranchPythonOperator(
task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_op >> self.branch_1 >> self.branch_2
self.branch_op >> self.branch_2
self.dag.clear()
dr = self.dag.create_dagrun(run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING)
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.NONE)
else:
raise
def test_with_skip_in_branch_downstream_dependencies2(self):
self.branch_op = BranchPythonOperator(
task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_2')
self.branch_op >> self.branch_1 >> self.branch_2
self.branch_op >> self.branch_2
self.dag.clear()
dr = self.dag.create_dagrun(run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING)
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.SKIPPED)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.NONE)
else:
raise
def test_clear_skipped_downstream_task(self):
"""
After a downstream task is skipped by BranchPythonOperator, clearing the skipped task
should not cause it to be executed.
"""
branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
branches = [self.branch_1, self.branch_2]
branch_op >> branches
self.dag.clear()
dr = self.dag.create_dagrun(run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING)
branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
for task in branches:
task.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise
children_tis = [
ti for ti in tis
if ti.task_id in branch_op.get_direct_relative_ids()
]
# Clear the children tasks.
with create_session() as session:
clear_task_instances(children_tis, session=session, dag=self.dag)
# Run the cleared tasks again.
for task in branches:
task.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
# Check if the states are correct after children tasks are cleared.
for ti in dr.get_task_instances():
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise
class BranchOperatorTest(unittest.TestCase):
@classmethod
def setUpClass(cls):
super(BranchOperatorTest, cls).setUpClass()
with create_session() as session:
session.query(DagRun).delete()
session.query(TI).delete()
def setUp(self):
self.dag = DAG('branch_operator_test',
default_args={
'owner': 'airflow',
'start_date': DEFAULT_DATE},
schedule_interval=INTERVAL)
self.branch_1 = DummyOperator(task_id='branch_1', dag=self.dag)
self.branch_2 = DummyOperator(task_id='branch_2', dag=self.dag)
def tearDown(self):
super().tearDown()
with create_session() as session:
session.query(DagRun).delete()
session.query(TI).delete()
def test_without_dag_run(self):
"""This checks the defensive against non existent tasks in a dag run"""
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_1.set_upstream(self.branch_op)
self.branch_2.set_upstream(self.branch_op)
self.dag.clear()
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
with create_session() as session:
tis = session.query(TI).filter(
TI.dag_id == self.dag.dag_id,
TI.execution_date == DEFAULT_DATE
)
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
# should exist with state None
self.assertEqual(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise Exception
def test_branch_list_without_dag_run(self):
"""This checks if the BranchPythonOperator supports branching off to a list of tasks."""
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: ['branch_1', 'branch_2'])
self.branch_1.set_upstream(self.branch_op)
self.branch_2.set_upstream(self.branch_op)
self.branch_3 = DummyOperator(task_id='branch_3', dag=self.dag)
self.branch_3.set_upstream(self.branch_op)
self.dag.clear()
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
with create_session() as session:
tis = session.query(TI).filter(
TI.dag_id == self.dag.dag_id,
TI.execution_date == DEFAULT_DATE
)
expected = {
"make_choice": State.SUCCESS,
"branch_1": State.NONE,
"branch_2": State.NONE,
"branch_3": State.SKIPPED,
}
for ti in tis:
if ti.task_id in expected:
self.assertEqual(ti.state, expected[ti.task_id])
else:
raise Exception
def test_with_dag_run(self):
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_1.set_upstream(self.branch_op)
self.branch_2.set_upstream(self.branch_op)
self.dag.clear()
dr = self.dag.create_dagrun(
run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING
)
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.SKIPPED)
else:
raise Exception
def test_with_skip_in_branch_downstream_dependencies(self):
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_1')
self.branch_op >> self.branch_1 >> self.branch_2
self.branch_op >> self.branch_2
self.dag.clear()
dr = self.dag.create_dagrun(
run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING
)
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.NONE)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.NONE)
else:
raise Exception
def test_with_skip_in_branch_downstream_dependencies2(self):
self.branch_op = BranchPythonOperator(task_id='make_choice',
dag=self.dag,
python_callable=lambda: 'branch_2')
self.branch_op >> self.branch_1 >> self.branch_2
self.branch_op >> self.branch_2
self.dag.clear()
dr = self.dag.create_dagrun(
run_id="manual__",
start_date=timezone.utcnow(),
execution_date=DEFAULT_DATE,
state=State.RUNNING
)
self.branch_op.run(start_date=DEFAULT_DATE, end_date=DEFAULT_DATE)
tis = dr.get_task_instances()
for ti in tis:
if ti.task_id == 'make_choice':
self.assertEqual(ti.state, State.SUCCESS)
elif ti.task_id == 'branch_1':
self.assertEqual(ti.state, State.SKIPPED)
elif ti.task_id == 'branch_2':
self.assertEqual(ti.state, State.NONE)
else:
raise Exception
