class CompletionServiceTestCase(CompletionWaffleTestMixin, SharedModuleStoreTestCase):
"""
Test the data returned by the CompletionService.
"""
@classmethod
def setUpClass(cls):
super(CompletionServiceTestCase, cls).setUpClass()
cls.course = CourseFactory.create()
with cls.store.bulk_operations(cls.course.id):
cls.chapter = ItemFactory.create(
parent=cls.course,
category="chapter",
)
cls.sequence = ItemFactory.create(
parent=cls.chapter,
category='sequential',
)
cls.vertical = ItemFactory.create(
parent=cls.sequence,
category='vertical',
)
cls.html = ItemFactory.create(
parent=cls.vertical,
category='html',
)
cls.problem = ItemFactory.create(
parent=cls.vertical,
category="problem",
)
cls.problem2 = ItemFactory.create(
parent=cls.vertical,
category="problem",
)
cls.problem3 = ItemFactory.create(
parent=cls.vertical,
category="problem",
)
cls.problem4 = ItemFactory.create(
parent=cls.vertical,
category="problem",
)
cls.problem5 = ItemFactory.create(
parent=cls.vertical,
category="problem",
)
cls.store.update_item(cls.course, UserFactory().id)
cls.problems = [cls.problem, cls.problem2, cls.problem3, cls.problem4, cls.problem5]
def setUp(self):
super(CompletionServiceTestCase, self).setUp()
self.override_waffle_switch(True)
self.user = UserFactory.create()
self.other_user = UserFactory.create()
self.course_key = self.course.id
self.other_course_key = CourseKey.from_string("course-v1:ReedX+Hum110+1904")
self.block_keys = [problem.location for problem in self.problems]
self.completion_service = CompletionService(self.user, self.course_key)
# Proper completions for the given runtime
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=self.html.location,
completion=1.0,
)
for idx, block_key in enumerate(self.block_keys[0:3]):
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=block_key,
completion=1.0 - (0.2 * idx),
)
# Wrong user
for idx, block_key in enumerate(self.block_keys[2:]):
BlockCompletion.objects.submit_completion(
user=self.other_user,
block_key=block_key,
completion=0.9 - (0.2 * idx),
)
# Wrong course
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=self.other_course_key.make_usage_key('problem', 'other'),
completion=0.75,
)
def test_completion_service(self):
# Only the completions for the user and course specified for the CompletionService
# are returned. Values are returned for all keys provided.
self.assertEqual(
self.completion_service.get_completions(self.block_keys),
{
self.block_keys[0]: 1.0,
self.block_keys[1]: 0.8,
self.block_keys[2]: 0.6,
self.block_keys[3]: 0.0,
self.block_keys[4]: 0.0
},
)
@ddt.data(True, False)
def test_enabled_honors_waffle_switch(self, enabled):
self.override_waffle_switch(enabled)
self.assertEqual(self.completion_service.completion_tracking_enabled(), enabled)
def test_vertical_completion(self):
self.assertEqual(
self.completion_service.vertical_is_complete(self.vertical),
False,
)
for block_key in self.block_keys:
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=block_key,
completion=1.0
)
self.assertEqual(
self.completion_service.vertical_is_complete(self.vertical),
True,
)
def test_vertical_partial_completion(self):
block_keys_count = len(self.block_keys)
for i in range(block_keys_count - 1):
# Mark all the child blocks completed except the last one
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=self.block_keys[i],
completion=1.0
)
self.assertEqual(
self.completion_service.vertical_is_complete(self.vertical),
False,
)
def test_can_mark_block_complete_on_view(self):
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.course), False)
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.chapter), False)
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.sequence), False)
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.vertical), False)
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.html), True)
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.problem), False)
class CompletionServiceTestCase(CompletionWaffleTestMixin, SharedModuleStoreTestCase):
"""
Test the data returned by the CompletionService.
"""
@classmethod
def setUpClass(cls):
super(CompletionServiceTestCase, cls).setUpClass()
cls.course = CourseFactory.create()
with cls.store.bulk_operations(cls.course.id):
cls.chapter = ItemFactory.create(
parent=cls.course,
category="chapter",
)
cls.sequence = ItemFactory.create(
parent=cls.chapter,
category='sequential',
)
cls.vertical = ItemFactory.create(
parent=cls.sequence,
category='vertical',
)
cls.html = ItemFactory.create(
parent=cls.vertical,
category='html',
)
cls.problem = ItemFactory.create(
parent=cls.vertical,
category="problem",
)
cls.problem2 = ItemFactory.create(
parent=cls.vertical,
category="problem",
)
cls.problem3 = ItemFactory.create(
parent=cls.vertical,
category="problem",
)
cls.problem4 = ItemFactory.create(
parent=cls.vertical,
category="problem",
)
cls.problem5 = ItemFactory.create(
parent=cls.vertical,
category="problem",
)
cls.store.update_item(cls.course, UserFactory().id)
cls.problems = [cls.problem, cls.problem2, cls.problem3, cls.problem4, cls.problem5]
def setUp(self):
super(CompletionServiceTestCase, self).setUp()
self.override_waffle_switch(True)
self.user = UserFactory.create()
self.other_user = UserFactory.create()
self.course_key = self.course.id
self.other_course_key = CourseKey.from_string("course-v1:ReedX+Hum110+1904")
self.block_keys = [problem.location for problem in self.problems]
self.completion_service = CompletionService(self.user, self.course_key)
# Proper completions for the given runtime
BlockCompletion.objects.submit_completion(
user=self.user,
course_key=self.course_key,
block_key=self.html.location,
completion=1.0,
)
for idx, block_key in enumerate(self.block_keys[0:3]):
BlockCompletion.objects.submit_completion(
user=self.user,
course_key=self.course_key,
block_key=block_key,
completion=1.0 - (0.2 * idx),
)
# Wrong user
for idx, block_key in enumerate(self.block_keys[2:]):
BlockCompletion.objects.submit_completion(
user=self.other_user,
course_key=self.course_key,
block_key=block_key,
completion=0.9 - (0.2 * idx),
)
# Wrong course
BlockCompletion.objects.submit_completion(
user=self.user,
course_key=self.other_course_key,
block_key=self.block_keys[4],
completion=0.75,
)
def test_completion_service(self):
# Only the completions for the user and course specified for the CompletionService
# are returned. Values are returned for all keys provided.
self.assertEqual(
self.completion_service.get_completions(self.block_keys),
{
self.block_keys[0]: 1.0,
self.block_keys[1]: 0.8,
self.block_keys[2]: 0.6,
self.block_keys[3]: 0.0,
self.block_keys[4]: 0.0
},
)
@ddt.data(True, False)
def test_enabled_honors_waffle_switch(self, enabled):
self.override_waffle_switch(enabled)
self.assertEqual(self.completion_service.completion_tracking_enabled(), enabled)
def test_vertical_completion(self):
self.assertEqual(
self.completion_service.vertical_is_complete(self.vertical),
False,
)
for block_key in self.block_keys:
BlockCompletion.objects.submit_completion(
user=self.user,
course_key=self.course_key,
block_key=block_key,
completion=1.0
)
self.assertEqual(
self.completion_service.vertical_is_complete(self.vertical),
True,
)
def test_vertical_partial_completion(self):
block_keys_count = len(self.block_keys)
for i in range(block_keys_count - 1):
# Mark all the child blocks completed except the last one
BlockCompletion.objects.submit_completion(
user=self.user,
course_key=self.course_key,
block_key=self.block_keys[i],
completion=1.0
)
self.assertEqual(
self.completion_service.vertical_is_complete(self.vertical),
False,
)
def test_can_mark_block_complete_on_view(self):
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.course), False)
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.chapter), False)
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.sequence), False)
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.vertical), False)
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.html), True)
self.assertEqual(self.completion_service.can_mark_block_complete_on_view(self.problem), False)
class CompletionServiceTestCase(CompletionWaffleTestMixin,
SharedModuleStoreTestCase):
"""
Test the data returned by the CompletionService.
"""
MODULESTORE = TEST_DATA_SPLIT_MODULESTORE
@classmethod
def setUpClass(cls):
super(CompletionServiceTestCase, cls).setUpClass()
cls.course = CourseFactory.create()
with cls.store.bulk_operations(cls.course.id):
cls.chapter = ItemFactory.create(
parent=cls.course,
category="chapter",
publish_item=False,
)
cls.sequence = ItemFactory.create(
parent=cls.chapter,
category='sequential',
publish_item=False,
)
cls.vertical = ItemFactory.create(
parent=cls.sequence,
category='vertical',
publish_item=False,
)
cls.html = ItemFactory.create(
parent=cls.vertical,
category='html',
publish_item=False,
)
cls.problem = ItemFactory.create(
parent=cls.vertical,
category="problem",
publish_item=False,
)
cls.problem2 = ItemFactory.create(
parent=cls.vertical,
category="problem",
publish_item=False,
)
cls.problem3 = ItemFactory.create(
parent=cls.vertical,
category="problem",
publish_item=False,
)
cls.problem4 = ItemFactory.create(
parent=cls.vertical,
category="problem",
publish_item=False,
)
cls.problem5 = ItemFactory.create(
parent=cls.vertical,
category="problem",
publish_item=False,
)
cls.store.update_item(cls.course, UserFactory().id)
cls.problems = [
cls.problem, cls.problem2, cls.problem3, cls.problem4, cls.problem5
]
def setUp(self):
super(CompletionServiceTestCase, self).setUp()
self.override_waffle_switch(True)
self.user = UserFactory.create()
self.other_user = UserFactory.create()
self.course_key = self.course.id
self.other_course_key = CourseKey.from_string(
"course-v1:ReedX+Hum110+1904")
self.block_keys = [problem.location for problem in self.problems]
self.completion_service = CompletionService(self.user, self.course_key)
# Proper completions for the given runtime
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=self.html.location,
completion=1.0,
)
for idx, block_key in enumerate(self.block_keys[0:3]):
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=block_key,
completion=1.0 - (0.2 * idx),
)
# Wrong user
for idx, block_key in enumerate(self.block_keys[2:]):
BlockCompletion.objects.submit_completion(
user=self.other_user,
block_key=block_key,
completion=0.9 - (0.2 * idx),
)
# Wrong course
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=self.other_course_key.make_usage_key('problem', 'other'),
completion=0.75,
)
def _bind_course_module(self, module):
"""
Bind a module (part of self.course) so we can access student-specific data.
"""
module_system = get_test_system(course_id=module.location.course_key)
module_system.descriptor_runtime = module.runtime._descriptor_system # pylint: disable=protected-access
module_system._services['library_tools'] = LibraryToolsService(
self.store, self.user.id) # pylint: disable=protected-access
def get_module(descriptor):
"""Mocks module_system get_module function"""
sub_module_system = get_test_system(
course_id=module.location.course_key)
sub_module_system.get_module = get_module
sub_module_system.descriptor_runtime = descriptor._runtime # pylint: disable=protected-access
descriptor.bind_for_student(sub_module_system, self.user.id)
return descriptor
module_system.get_module = get_module
module.xmodule_runtime = module_system
def test_completion_service(self):
# Only the completions for the user and course specified for the CompletionService
# are returned. Values are returned for all keys provided.
self.assertEqual(
self.completion_service.get_completions(self.block_keys),
{
self.block_keys[0]: 1.0,
self.block_keys[1]: 0.8,
self.block_keys[2]: 0.6,
self.block_keys[3]: 0.0,
self.block_keys[4]: 0.0
},
)
@ddt.data(True, False)
def test_enabled_honors_waffle_switch(self, enabled):
self.override_waffle_switch(enabled)
self.assertEqual(self.completion_service.completion_tracking_enabled(),
enabled)
def test_vertical_completion(self):
self.assertEqual(
self.completion_service.vertical_is_complete(self.vertical),
False,
)
for block_key in self.block_keys:
BlockCompletion.objects.submit_completion(user=self.user,
block_key=block_key,
completion=1.0)
self.assertEqual(
self.completion_service.vertical_is_complete(self.vertical),
True,
)
def test_vertical_partial_completion(self):
block_keys_count = len(self.block_keys)
for i in range(block_keys_count - 1):
# Mark all the child blocks completed except the last one
BlockCompletion.objects.submit_completion(
user=self.user, block_key=self.block_keys[i], completion=1.0)
self.assertEqual(
self.completion_service.vertical_is_complete(self.vertical),
False,
)
def test_can_mark_block_complete_on_view(self):
self.assertEqual(
self.completion_service.can_mark_block_complete_on_view(
self.course), False)
self.assertEqual(
self.completion_service.can_mark_block_complete_on_view(
self.chapter), False)
self.assertEqual(
self.completion_service.can_mark_block_complete_on_view(
self.sequence), False)
self.assertEqual(
self.completion_service.can_mark_block_complete_on_view(
self.vertical), False)
self.assertEqual(
self.completion_service.can_mark_block_complete_on_view(self.html),
True)
self.assertEqual(
self.completion_service.can_mark_block_complete_on_view(
self.problem), False)
def test_vertical_completion_with_library_content(self):
library = LibraryFactory.create(modulestore=self.store)
ItemFactory.create(parent=library,
category='problem',
publish_item=False,
user_id=self.user.id)
ItemFactory.create(parent=library,
category='problem',
publish_item=False,
user_id=self.user.id)
ItemFactory.create(parent=library,
category='problem',
publish_item=False,
user_id=self.user.id)
lib_vertical = ItemFactory.create(parent=self.sequence,
category='vertical',
publish_item=False)
library_content_block = ItemFactory.create(
parent=lib_vertical,
category='library_content',
max_count=1,
source_library_id=str(library.location.library_key),
user_id=self.user.id,
)
library_content_block.refresh_children()
lib_vertical = self.store.get_item(lib_vertical.location)
self._bind_course_module(lib_vertical)
# We need to refetch the library_content_block to retrieve the
# fresh version from the call to get_item for lib_vertical
library_content_block = [
child for child in lib_vertical.get_children()
if child.scope_ids.block_type == 'library_content'
][0]
## Ensure the library_content_block is properly set up
# This is needed so we can call get_child_descriptors
self._bind_course_module(library_content_block)
# Make sure the runtime knows that the block's children vary per-user:
self.assertTrue(library_content_block.has_dynamic_children())
self.assertEqual(len(library_content_block.children), 3)
# Check how many children each user will see:
self.assertEqual(len(library_content_block.get_child_descriptors()), 1)
# No problems are complete yet
self.assertFalse(
self.completion_service.vertical_is_complete(lib_vertical))
for block_key in self.block_keys:
BlockCompletion.objects.submit_completion(user=self.user,
block_key=block_key,
completion=1.0)
# Library content problems aren't complete yet
self.assertFalse(
self.completion_service.vertical_is_complete(lib_vertical))
for child in library_content_block.get_child_descriptors():
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=child.scope_ids.usage_id,
completion=1.0)
self.assertTrue(
self.completion_service.vertical_is_complete(lib_vertical))
def test_vertical_completion_with_nested_children(self):
parent_vertical = ItemFactory(parent=self.sequence,
category='vertical')
extra_vertical = ItemFactory(parent=parent_vertical,
category='vertical')
problem = ItemFactory(parent=extra_vertical, category='problem')
parent_vertical = self.store.get_item(parent_vertical.location)
# Nothing is complete
self.assertFalse(
self.completion_service.vertical_is_complete(parent_vertical))
for block_key in self.block_keys:
BlockCompletion.objects.submit_completion(user=self.user,
block_key=block_key,
completion=1.0)
# The nested child isn't complete yet
self.assertFalse(
self.completion_service.vertical_is_complete(parent_vertical))
BlockCompletion.objects.submit_completion(user=self.user,
block_key=problem.location,
completion=1.0)
self.assertTrue(
self.completion_service.vertical_is_complete(parent_vertical))
class CompletionServiceTestCase(CompletionWaffleTestMixin, SharedModuleStoreTestCase):
"""
Test the data returned by the CompletionService.
"""
@classmethod
def setUpClass(cls):
super().setUpClass()
cls.course = CourseFactory.create()
with cls.store.bulk_operations(cls.course.id):
cls.chapter = ItemFactory.create(
parent=cls.course,
category="chapter",
publish_item=False,
)
cls.sequence = ItemFactory.create(
parent=cls.chapter,
category='sequential',
publish_item=False,
)
cls.vertical = ItemFactory.create(
parent=cls.sequence,
category='vertical',
publish_item=False,
)
cls.html = ItemFactory.create(
parent=cls.vertical,
category='html',
publish_item=False,
)
cls.problem = ItemFactory.create(
parent=cls.vertical,
category="problem",
publish_item=False,
)
cls.problem2 = ItemFactory.create(
parent=cls.vertical,
category="problem",
publish_item=False,
)
cls.problem3 = ItemFactory.create(
parent=cls.vertical,
category="problem",
publish_item=False,
)
cls.problem4 = ItemFactory.create(
parent=cls.vertical,
category="problem",
publish_item=False,
)
cls.problem5 = ItemFactory.create(
parent=cls.vertical,
category="problem",
publish_item=False,
)
cls.store.update_item(cls.course, UserFactory().id)
cls.problems = [cls.problem, cls.problem2, cls.problem3, cls.problem4, cls.problem5]
def setUp(self):
super().setUp()
self.override_waffle_switch(True)
self.user = UserFactory.create()
self.other_user = UserFactory.create()
self.course_key = self.course.id
self.other_course_key = CourseKey.from_string("course-v1:ReedX+Hum110+1904")
self.block_keys = [problem.location for problem in self.problems]
self.completion_service = CompletionService(self.user, self.course_key)
# Proper completions for the given runtime
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=self.html.location,
completion=1.0,
)
for idx, block_key in enumerate(self.block_keys[0:3]):
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=block_key,
completion=1.0 - (0.2 * idx),
)
# Wrong user
for idx, block_key in enumerate(self.block_keys[2:]):
BlockCompletion.objects.submit_completion(
user=self.other_user,
block_key=block_key,
completion=0.9 - (0.2 * idx),
)
# Wrong course
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=self.other_course_key.make_usage_key('problem', 'other'),
completion=0.75,
)
def _bind_course_module(self, module):
"""
Bind a module (part of self.course) so we can access student-specific data.
"""
module_system = get_test_system(course_id=module.location.course_key)
module_system.descriptor_runtime = module.runtime._descriptor_system # pylint: disable=protected-access
module_system._services['library_tools'] = LibraryToolsService(self.store, self.user.id) # pylint: disable=protected-access
def get_module(descriptor):
"""Mocks module_system get_module function"""
sub_module_system = get_test_system(course_id=module.location.course_key)
sub_module_system.get_module = get_module
sub_module_system.descriptor_runtime = descriptor._runtime # pylint: disable=protected-access
descriptor.bind_for_student(sub_module_system, self.user.id)
return descriptor
module_system.get_module = get_module
module.xmodule_runtime = module_system
def test_completion_service(self):
# Only the completions for the user and course specified for the CompletionService
# are returned. Values are returned for all keys provided.
assert self.completion_service.get_completions(self.block_keys) == {
self.block_keys[0]: 1.0, self.block_keys[1]: 0.8,
self.block_keys[2]: 0.6, self.block_keys[3]: 0.0,
self.block_keys[4]: 0.0
}
@ddt.data(True, False)
def test_enabled_honors_waffle_switch(self, enabled):
self.override_waffle_switch(enabled)
assert self.completion_service.completion_tracking_enabled() == enabled
def test_vertical_completion(self):
assert self.completion_service.vertical_is_complete(self.vertical) is False
for block_key in self.block_keys:
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=block_key,
completion=1.0
)
assert self.completion_service.vertical_is_complete(self.vertical) is True
def test_vertical_partial_completion(self):
block_keys_count = len(self.block_keys)
for i in range(block_keys_count - 1):
# Mark all the child blocks completed except the last one
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=self.block_keys[i],
completion=1.0
)
assert self.completion_service.vertical_is_complete(self.vertical) is False
def test_can_mark_block_complete_on_view(self):
assert self.completion_service.can_mark_block_complete_on_view(self.course) is False
assert self.completion_service.can_mark_block_complete_on_view(self.chapter) is False
assert self.completion_service.can_mark_block_complete_on_view(self.sequence) is False
assert self.completion_service.can_mark_block_complete_on_view(self.vertical) is False
assert self.completion_service.can_mark_block_complete_on_view(self.html) is True
assert self.completion_service.can_mark_block_complete_on_view(self.problem) is False
@override_settings(FEATURES={**settings.FEATURES, 'MARK_LIBRARY_CONTENT_BLOCK_COMPLETE_ON_VIEW': True})
def test_can_mark_library_content_complete_on_view(self):
library = LibraryFactory.create(modulestore=self.store)
lib_vertical = ItemFactory.create(parent=self.sequence, category='vertical', publish_item=False)
library_content_block = ItemFactory.create(
parent=lib_vertical,
category='library_content',
max_count=1,
source_library_id=str(library.location.library_key),
user_id=self.user.id,
)
self.assertTrue(self.completion_service.can_mark_block_complete_on_view(library_content_block))
def test_vertical_completion_with_library_content(self):
library = LibraryFactory.create(modulestore=self.store)
ItemFactory.create(parent=library, category='problem', publish_item=False, user_id=self.user.id)
ItemFactory.create(parent=library, category='problem', publish_item=False, user_id=self.user.id)
ItemFactory.create(parent=library, category='problem', publish_item=False, user_id=self.user.id)
# Create a new vertical to hold the library content block
# It is very important that we use parent_location=self.sequence.location (and not parent=self.sequence), since
# sequence is a class attribute and passing it by value will update its .children=[] which will then leak into
# other tests and cause errors if the children no longer exist.
lib_vertical = ItemFactory.create(
parent_location=self.sequence.location,
category='vertical',
publish_item=False,
)
library_content_block = ItemFactory.create(
parent=lib_vertical,
category='library_content',
max_count=1,
source_library_id=str(library.location.library_key),
user_id=self.user.id,
)
# Library Content Block needs its children to be completed.
self.assertFalse(self.completion_service.can_mark_block_complete_on_view(library_content_block))
library_content_block.refresh_children()
lib_vertical = self.store.get_item(lib_vertical.location)
self._bind_course_module(lib_vertical)
# We need to refetch the library_content_block to retrieve the
# fresh version from the call to get_item for lib_vertical
library_content_block = [child for child in lib_vertical.get_children()
if child.scope_ids.block_type == 'library_content'][0]
## Ensure the library_content_block is properly set up
# This is needed so we can call get_child_descriptors
self._bind_course_module(library_content_block)
# Make sure the runtime knows that the block's children vary per-user:
assert library_content_block.has_dynamic_children()
assert len(library_content_block.children) == 3
# Check how many children each user will see:
assert len(library_content_block.get_child_descriptors()) == 1
# No problems are complete yet
assert not self.completion_service.vertical_is_complete(lib_vertical)
for block_key in self.block_keys:
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=block_key,
completion=1.0
)
# Library content problems aren't complete yet
assert not self.completion_service.vertical_is_complete(lib_vertical)
for child in library_content_block.get_child_descriptors():
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=child.scope_ids.usage_id,
completion=1.0
)
assert self.completion_service.vertical_is_complete(lib_vertical)
def test_vertical_completion_with_nested_children(self):
# Create a new vertical.
# It is very important that we use parent_location=self.sequence.location (and not parent=self.sequence), since
# sequence is a class attribute and passing it by value will update its .children=[] which will then leak into
# other tests and cause errors if the children no longer exist.
parent_vertical = ItemFactory(parent_location=self.sequence.location, category='vertical')
extra_vertical = ItemFactory(parent=parent_vertical, category='vertical')
problem = ItemFactory(parent=extra_vertical, category='problem')
parent_vertical = self.store.get_item(parent_vertical.location)
# Nothing is complete
assert not self.completion_service.vertical_is_complete(parent_vertical)
for block_key in self.block_keys:
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=block_key,
completion=1.0
)
# The nested child isn't complete yet
assert not self.completion_service.vertical_is_complete(parent_vertical)
BlockCompletion.objects.submit_completion(
user=self.user,
block_key=problem.location,
completion=1.0
)
assert self.completion_service.vertical_is_complete(parent_vertical)