class PagesCreatedWikiCohortTest(DatabaseTest):
def setUp(self):
"""
Setup editing data using a regular cohort setup
Setup a WikiCohort that will span to all users that we have
in the project.
"""
DatabaseTest.setUp(self)
self.common_cohort_4()
self.create_wiki_cohort()
self.cohort_service = CohortService()
self.wiki_cohort = self.cohort_service.get(
self.session, self.owner_user_id, by_id=self.basic_wiki_cohort.id
)
# This should return an empty list, but if it returned anything, the objects
# would be WikiUserStore objects, so we should treat it as such
self.user_ids = [
w.mediawiki_userid
for w in self.cohort_service.get_wikiusers(self.wiki_cohort)
]
def test_pages_created_happy_case(self):
"""
Retrieve pages created metric for wiki cohort for project 'wiki'
Results of tests should be identical as if we used cohort number 4
"""
metric = PagesCreated(
namespaces=[301, 302, 303],
start_date='2013-06-19 00:00:00',
end_date='2013-08-21 00:00:00'
)
results = metric(self.user_ids, self.mwSession)
assert_equal(results[self.editors[0].user_id]['pages_created'], 3)
assert_equal(results[self.editors[1].user_id]['pages_created'], 1)
def test_pages_created_extra_users(self):
"""
Retrieve pages created metric for wiki cohort for project 'wiki'
Results should include the additional users created by
`self.common_cohort_4(cohort=False)`
"""
self.common_cohort_4(cohort=False)
metric = PagesCreated(
namespaces=[301, 302, 303],
start_date='2013-06-19 00:00:00',
end_date='2013-08-21 00:00:00'
)
results = metric(self.user_ids, self.mwSession)
assert_equal(results[self.editors[0].user_id]['pages_created'], 3)
assert_equal(results[self.editors[1].user_id]['pages_created'], 1)
assert_equal(results[self.editors[0].user_id + 2]['pages_created'], 3)
assert_equal(results[self.editors[1].user_id + 2]['pages_created'], 1)
def __init__(self,
parameters,
user_id=0,
recurrent_parent_id=None,
created=None,
persistent_id=None):
"""
Parameters:
parameters : dictionary containing the following required keys:
name : the name of the report
cohort : dictionary defining the cohort, has keys:
id : the id of the cohort
metric : dictionary defining the metric, has keys:
name : the name of the python class to instantiate
recurrent : whether to rerun this daily
public : whether to expose results publicly
user_id : the user wishing to run this report
recurrent_parent_id : the parent ReportStore.id for a recurrent run
created : if set, represents the date of a recurrent run.
This need not be the timestamp when the
recurrent run has been created -- for example
when backfilling. Hence, this does not fully
match the semantics of the word 'created'.
But since neither start nor end date have a
separate column in the report table in the
database, the covered period for backfilled
recurring reports would be hard to identify
when only looking at the raw database
tables. To overcome this issue, we abuse the
created date here.
Raises:
KeyError if required parameters are missing
"""
# get cohort
cohort_service = CohortService()
cohort_dict = parameters['cohort']
session = db.get_session()
cohort = cohort_service.get(session, user_id, by_id=cohort_dict['id'])
parameters['cohort']['size'] = cohort.size
# construct metric
metric_dict = parameters['metric']
metric = metric_classes[metric_dict['name']](**metric_dict)
# if this is a recurrent run, don't show it in the UI
if recurrent_parent_id is not None:
self.show_in_ui = False
public = parameters.get('public', False)
recurrent = parameters.get('recurrent', False)
super(RunReport, self).__init__(
name=parameters['name'],
user_id=user_id,
parameters=parameters,
public=public,
recurrent=recurrent,
recurrent_parent_id=recurrent_parent_id,
created=created,
store=True,
persistent_id=persistent_id
)
self.recurrent_parent_id = recurrent_parent_id
self.public = public
validate_report = ValidateReport(
metric, cohort, recurrent_parent_id is None, user_id=user_id
)
if validate_report.valid():
if recurrent and recurrent_parent_id is None:
# Valid parent recurrent report
# We do not add children that compute data as parent recurrent
# reports just help the scheduler orchestrate child runs.
# However, we employ a NullReport to allow coalescing even
# when there was no recurrent run yet.
self.children = [NullReport()]
else:
# Valid, but not a parent recurring report, so we add the child
# node that does the real computation
self.children = [AggregateReport(
metric, cohort, metric_dict, parameters=parameters,
user_id=user_id
)]
else:
self.children = [validate_report]
def __init__(self,
parameters,
user_id=0,
recurrent_parent_id=None,
created=None,
persistent_id=None):
"""
Parameters:
parameters : dictionary containing the following required keys:
name : the name of the report
cohort : dictionary defining the cohort, has keys:
id : the id of the cohort
metric : dictionary defining the metric, has keys:
name : the name of the python class to instantiate
recurrent : whether to rerun this daily
public : whether to expose results publicly
user_id : the user wishing to run this report
recurrent_parent_id : the parent ReportStore.id for a recurrent run
created : if set, represents the date of a recurrent run.
This need not be the timestamp when the
recurrent run has been created -- for example
when backfilling. Hence, this does not fully
match the semantics of the word 'created'.
But since neither start nor end date have a
separate column in the report table in the
database, the covered period for backfilled
recurring reports would be hard to identify
when only looking at the raw database
tables. To overcome this issue, we abuse the
created date here.
Raises:
KeyError if required parameters are missing
"""
# get cohort
cohort_service = CohortService()
cohort_dict = parameters['cohort']
session = db.get_session()
cohort = cohort_service.get(session, user_id, by_id=cohort_dict['id'])
parameters['cohort']['size'] = cohort.size
# construct metric
metric_dict = parameters['metric']
metric = metric_classes[metric_dict['name']](**metric_dict)
# if this is a recurrent run, don't show it in the UI
if recurrent_parent_id is not None:
self.show_in_ui = False
public = parameters.get('public', False)
recurrent = parameters.get('recurrent', False)
super(RunReport,
self).__init__(name=parameters['name'],
user_id=user_id,
parameters=parameters,
public=public,
recurrent=recurrent,
recurrent_parent_id=recurrent_parent_id,
created=created,
store=True,
persistent_id=persistent_id)
self.recurrent_parent_id = recurrent_parent_id
self.public = public
validate_report = ValidateReport(metric,
cohort,
recurrent_parent_id is None,
user_id=user_id)
if validate_report.valid():
if recurrent and recurrent_parent_id is None:
# Valid parent recurrent report
# We do not add children that compute data as parent recurrent
# reports just help the scheduler orchestrate child runs.
# However, we employ a NullReport to allow coalescing even
# when there was no recurrent run yet.
self.children = [NullReport()]
else:
# Valid, but not a parent recurring report, so we add the child
# node that does the real computation
self.children = [
AggregateReport(metric,
cohort,
metric_dict,
parameters=parameters,
user_id=user_id)
]
else:
self.children = [validate_report]
class CohortServiceTest(DatabaseTest):
def setUp(self):
"""
NOTE: self.cohort is a CohortStore object. When testing CohortService,
one should use logical cohort objects (ie. FixedCohort, WikiCohort, etc.)
"""
DatabaseTest.setUp(self)
self.common_cohort_1()
self.editor_user_ids = [e.user_id for e in self.editors]
self.cohort_service = CohortService()
empty_cohort = CohortStore(enabled=True, class_name='Cohort')
self.session.add(empty_cohort)
self.session.commit()
empty_cohort_user = CohortUserStore(
user_id=self.owner_user_id,
cohort_id=empty_cohort.id,
role=CohortUserRole.OWNER,
)
self.session.add(empty_cohort_user)
self.session.commit()
self.invalid_empty_cohort = CohortStore(enabled=True,
class_name='FixedCohort',
validated=True)
self.session.add(self.invalid_empty_cohort)
self.session.commit()
invalid_empty_cohort_user = CohortUserStore(
user_id=self.owner_user_id,
cohort_id=self.invalid_empty_cohort.id,
role=CohortUserRole.OWNER,
)
self.session.add(invalid_empty_cohort_user)
self.session.commit()
self.empty_cohort = self.cohort_service.get(self.session,
self.owner_user_id,
by_id=empty_cohort.id)
self.fixed_cohort = self.cohort_service.get(self.session,
self.owner_user_id,
by_id=self.cohort.id)
def test_get(self):
assert_equals(self.fixed_cohort.name, self.cohort.name)
def test_get_by_name(self):
c = self.cohort_service.get(self.session,
self.owner_user_id,
by_name=self.cohort.name)
assert_equals(c.name, self.cohort.name)
def test_get_empty(self):
assert_equals(self.empty_cohort.name, None)
@raises(NoResultFound)
def test_get_raises_exception_for_not_found_by_id(self):
self.cohort_service.get(self.session, self.owner_user_id, by_id=0)
@raises(NoResultFound)
def test_get_raises_exception_for_not_found_by_name(self):
self.cohort_service.get(self.session, self.owner_user_id, by_name='')
@raises(Unauthorized)
def test_get_unauthorized(self):
self.cohort_service.get(self.session, 0, by_id=self.cohort.id)
@raises(InvalidCohort)
def test_get_invalid(self):
self.cohort.validated = False
self.session.commit()
self.cohort_service.get(self.session,
self.owner_user_id,
by_id=self.cohort.id)
@raises(InvalidCohort)
def test_get_invalid_because_empty(self):
self.cohort_service.get(self.session,
self.owner_user_id,
by_id=self.invalid_empty_cohort.id)
def test_get_size(self):
assert_equals(self.fixed_cohort.size, 4)
def test_get_size_empty(self):
assert_equals(self.empty_cohort.size, 0)
def test_get_users_by_project(self):
c = self.cohort_service.get(self.session,
self.owner_user_id,
by_id=self.cohort.id)
by_project = self.cohort_service.get_users_by_project(c)
# NOTE: generator magic, couldn't get this to work without a loop
for p in by_project:
wikiusers = list(p[1])
assert_equals(set(self.editor_user_ids), set(wikiusers))
assert_equals(len(wikiusers), 4)
def test_get_wikiusers(self):
users = self.cohort_service.get_wikiusers(self.fixed_cohort,
self.session)
assert_equals(users, self.editor_user_ids)
def test_get_wikiusers_limited(self):
users = self.cohort_service.get_wikiusers(self.fixed_cohort,
self.session, 2)
assert_equals(len(users), 2)
def test_get_wikiusers_empty(self):
users = self.cohort_service.get_wikiusers(self.empty_cohort,
self.session)
assert_equals(len(users), 0)
def test_wiki_cohort_group_by_project_works(self):
self.create_wiki_cohort()
c = self.cohort_service.get(self.session,
self.owner_user_id,
by_id=self.basic_wiki_cohort.id)
users_by_project = list(self.cohort_service.get_users_by_project(c))
assert_equals(len(users_by_project), 1)
assert_equals(users_by_project[0][0], mediawiki_project)
assert_equals(users_by_project[0][1], None)
def test_convert(self):
cohort = self.cohort_service.convert(self.cohort)
assert_true(issubclass(cohort.__class__, Cohort))
def test_add_wiki_cohort(self):
dewiki1 = self.cohort_service.add_wiki_cohort(self.session, 'dewiki')
assert_equals(dewiki1.name, 'dewiki')
assert_equals(dewiki1.default_project, 'dewiki')
assert_equals(type(dewiki1).__name__, 'WikiCohort')
assert_equals(dewiki1.enabled, True)
dewiki2 = self.cohort_service.add_wiki_cohort(self.session, 'dewiki')
# make sure the cohort doesn't get added twice
assert_equals(dewiki1.id, dewiki2.id)
def test_share(self):
cohorts = self.cohort_service.get_list(self.session,
self.owner_user_id)
assert_true('dewiki' not in [c.default_project for c in cohorts])
dewiki = self.cohort_service.add_wiki_cohort(self.session, 'dewiki')
self.cohort_service.share(self.session, dewiki, self.owner_user_id)
cohorts = self.cohort_service.get_list(self.session,
self.owner_user_id)
assert_true('dewiki' in [c.default_project for c in cohorts])
def test_wikiusernames_for_not_existing_cohort(self):
"""
If a cohort does not exist it returns an empty list of user names to make
things easy for the UI
"""
user_names = self.cohort_service.get_wikiusernames_for_cohort(
'9999', self.session)
assert_equals(len(user_names.keys()), 0)
def test_wikiusernames(self):
"""
Make sure usernames can be retrieved using Wikiuserkey
"""
from wikimetrics.models.storage import (WikiUserKey)
# let's get two users and see that names match
# this returns a list of WikiUserStore objects
users = self.cohort_service.get_wikiusers(self.fixed_cohort,
self.session, 2)
user1 = users[0]
key1 = WikiUserKey(user1.mediawiki_userid, user1.project,
user1.validating_cohort)
user2 = users[1]
key2 = WikiUserKey(user2.mediawiki_userid, user2.project,
user2.validating_cohort)
user_names = self.cohort_service.get_wikiusernames_for_cohort(
self.fixed_cohort.id, self.session)
assert_equals(user_names[key1], user1.mediawiki_username)
assert_equals(user_names[key2], user2.mediawiki_username)
def test_get_membership_contents(self):
"""
The wikiuser properties must be returned
under the expected data structure.
"""
wikiusers = self.session.query(WikiUserStore).all()
membership = self.cohort_service.get_membership(
self.cohort, self.session)
assert_equals(len(membership), len(wikiusers))
for i in range(len(membership)):
wikiuser, member = wikiusers[i], membership[i]
assert_equals(len(membership), 4)
assert_equals(member['username'], wikiuser.mediawiki_username)
assert_equals(len(member['projects']), 1)
assert_equals(member['projects'][0], wikiuser.project)
assert_equals(len(member['invalidProjects']), 0)
assert_equals(len(member['invalidReasons']), 0)
def test_get_membership_group_by_username(self):
"""
The wikiusers must be grouped by username,
returning their projects, validities and reasons
in the corresponding lists.
"""
wikiusers = self.session.query(WikiUserStore).all()
username_1, username_2 = 'Username 1', 'Username 2'
project_1, project_2 = 'Project 1', 'Project 2'
reason_invalid_1 = 'Reason Invalid 1'
wikiusers[0].raw_id_or_name = username_1
wikiusers[1].raw_id_or_name = username_1
wikiusers[2].raw_id_or_name = username_2
wikiusers[2].project = project_1
wikiusers[3].raw_id_or_name = username_2
wikiusers[3].project = project_2
wikiusers[3].valid = False
wikiusers[3].reason_invalid = reason_invalid_1
self.session.commit()
membership = self.cohort_service.get_membership(
self.cohort, self.session)
assert_equals(len(membership), 2)
assert_equals(membership[0]['raw_id_or_name'], username_1)
assert_equals(membership[1]['raw_id_or_name'], username_2)
assert_equals(membership[1]['projects'], [project_1, project_2])
assert_equals(membership[1]['invalidProjects'], [project_2])
assert_equals(membership[1]['invalidReasons'], [reason_invalid_1])
def test_get_membership_order_by_name(self):
wikiusers = self.session.query(WikiUserStore).all()
wikiusers[0].mediawiki_username = '******'
wikiusers[1].mediawiki_username = '******'
wikiusers[2].mediawiki_username = '******'
wikiusers[3].mediawiki_username = '******'
self.session.commit()
membership = self.cohort_service.get_membership(
self.cohort, self.session)
assert_equals(len(membership), len(wikiusers))
assert_equals(membership[0]['username'], 'A')
assert_equals(membership[1]['username'], 'B')
assert_equals(membership[2]['username'], 'C')
assert_equals(membership[3]['username'], 'D')
def test_delete_cohort_wikiuser(self):
username = '******'
wikiuser = self.session.query(WikiUserStore).first()
wikiuser.raw_id_or_name = username
self.session.commit()
self.cohort_service.delete_cohort_wikiuser(wikiuser.raw_id_or_name,
self.cohort.id,
self.owner_user_id,
self.session)
wikiusers = (self.session.query(WikiUserStore).filter(
WikiUserStore.raw_id_or_name == username).filter(
WikiUserStore.validating_cohort == self.cohort.id).all())
assert_equals(len(wikiusers), 0)
cohort_wikiusers = (self.session.query(CohortWikiUserStore).filter(
CohortWikiUserStore.cohort_id == self.cohort.id).filter(
CohortWikiUserStore.wiki_user_id == wikiuser.id).all())
assert_equals(len(cohort_wikiusers), 0)
def test_delete_cohort_wikiuser_invalid_only(self):
username = '******'
wikiusers = self.session.query(WikiUserStore).all()
wikiusers[0].raw_id_or_name = username
wikiusers[1].raw_id_or_name = username
wikiusers[1].valid = False
wikiuser_ids = [wikiusers[0].id, wikiusers[1]]
self.session.commit()
self.cohort_service.delete_cohort_wikiuser(username, self.cohort.id,
self.owner_user_id,
self.session, True)
wikiusers = (self.session.query(WikiUserStore).filter(
WikiUserStore.raw_id_or_name == username).filter(
WikiUserStore.validating_cohort == self.cohort.id).all())
assert_equals(len(wikiusers), 1)
cohort_wikiusers = (self.session.query(CohortWikiUserStore).filter(
CohortWikiUserStore.cohort_id == self.cohort.id).filter(
CohortWikiUserStore.wiki_user_id.in_(wikiuser_ids)).all())
assert_equals(len(cohort_wikiusers), 1)
def test_delete_cohort_wikiuser_utf8(self):
username = '******'
wikiuser = self.session.query(WikiUserStore).first()
wikiuser.raw_id_or_name = username
self.session.commit()
self.cohort_service.delete_cohort_wikiuser(username, self.cohort.id,
self.owner_user_id,
self.session)
wikiusers = (self.session.query(WikiUserStore).filter(
WikiUserStore.raw_id_or_name == username).filter(
WikiUserStore.validating_cohort == self.cohort.id).all())
assert_equals(len(wikiusers), 0)
@raises(Unauthorized)
def test_delete_cohort_wikiuser_ownership(self):
self.cohort_service.delete_cohort_wikiuser('To Delete', self.cohort.id,
self.owner_user_id + 1,
self.session)
def test_is_owned_by_user_positive(self):
cohort_user = (self.session.query(CohortUserStore).filter(
CohortUserStore.cohort_id == self.cohort.id).one())
result = self.cohort_service.is_owned_by_user(self.session,
self.cohort.id,
cohort_user.user_id)
assert_true(result)
def test_is_owned_by_user_negative(self):
cohort_user = (self.session.query(CohortUserStore).filter(
CohortUserStore.cohort_id == self.cohort.id).one())
result = self.cohort_service.is_owned_by_user(self.session,
self.cohort.id,
cohort_user.user_id + 1)
assert_false(result)
@raises(Unauthorized)
def test_is_owned_by_user_exception(self):
cohort_user = (self.session.query(CohortUserStore).filter(
CohortUserStore.cohort_id == self.cohort.id).one())
self.cohort_service.is_owned_by_user(self.session, self.cohort.id,
cohort_user.user_id + 1, True)
@raises(Unauthorized)
def test_get_tag_exception(self):
tag = TagStore(name='some_tag')
self.session.add(tag)
self.session.commit()
cohort_tag = CohortTagStore(
tag_id=tag.id,
cohort_id=self.empty_cohort.id,
)
self.session.add(cohort_tag)
self.session.commit()
cohort_user = (self.session.query(CohortUserStore).filter(
CohortUserStore.cohort_id == self.empty_cohort.id).one())
self.cohort_service.get_tag(self.session, tag, self.empty_cohort.id,
cohort_user.user_id + 1)
def test_get_tag(self):
tag = TagStore(name='some_tag')
self.session.add(tag)
self.session.commit()
cohort_tag = CohortTagStore(
tag_id=tag.id,
cohort_id=self.empty_cohort.id,
)
self.session.add(cohort_tag)
self.session.commit()
cohort_user = (self.session.query(CohortUserStore).filter(
CohortUserStore.cohort_id == self.empty_cohort.id).one())
cohort_tags = self.cohort_service.get_tag(self.session, tag,
self.empty_cohort.id,
cohort_user.user_id)
assert_equals(len(cohort_tags), 1)
@raises(Unauthorized)
def test_add_tag_exception(self):
tag = TagStore(name='some_tag')
self.session.add(tag)
self.session.commit()
cohort_user = (self.session.query(CohortUserStore).filter(
CohortUserStore.cohort_id == self.empty_cohort.id).one())
self.cohort_service.add_tag(self.session, tag, self.empty_cohort.id,
cohort_user.user_id + 1)
def test_add_tag(self):
tag = TagStore(name='some_tag')
self.session.add(tag)
self.session.commit()
cohort_user = (self.session.query(CohortUserStore).filter(
CohortUserStore.cohort_id == self.empty_cohort.id).one())
cohort_tags = self.cohort_service.get_tag(self.session, tag,
self.empty_cohort.id,
cohort_user.user_id)
assert_equals(len(cohort_tags), 0)
self.cohort_service.add_tag(self.session, tag, self.empty_cohort.id,
cohort_user.user_id)
cohort_tags = self.cohort_service.get_tag(self.session, tag,
self.empty_cohort.id,
cohort_user.user_id)
assert_equals(len(cohort_tags), 1)
class CohortServiceTest(DatabaseTest):
def setUp(self):
"""
NOTE: self.cohort is a CohortStore object. When testing CohortService,
one should use logical cohort objects (ie. FixedCohort, WikiCohort, etc.)
"""
DatabaseTest.setUp(self)
self.common_cohort_1()
self.editor_user_ids = [e.user_id for e in self.editors]
self.cohort_service = CohortService()
empty_cohort = CohortStore(enabled=True, class_name='Cohort')
self.session.add(empty_cohort)
self.session.commit()
empty_cohort_user = CohortUserStore(
user_id=self.owner_user_id,
cohort_id=empty_cohort.id,
role=CohortUserRole.OWNER,
)
self.session.add(empty_cohort_user)
self.session.commit()
self.invalid_empty_cohort = CohortStore(
enabled=True, class_name='FixedCohort', validated=True
)
self.session.add(self.invalid_empty_cohort)
self.session.commit()
invalid_empty_cohort_user = CohortUserStore(
user_id=self.owner_user_id,
cohort_id=self.invalid_empty_cohort.id,
role=CohortUserRole.OWNER,
)
self.session.add(invalid_empty_cohort_user)
self.session.commit()
self.empty_cohort = self.cohort_service.get(
self.session, self.owner_user_id, by_id=empty_cohort.id
)
self.fixed_cohort = self.cohort_service.get(
self.session, self.owner_user_id, by_id=self.cohort.id
)
def test_get(self):
assert_equals(self.fixed_cohort.name, self.cohort.name)
def test_get_by_name(self):
c = self.cohort_service.get(
self.session, self.owner_user_id, by_name=self.cohort.name
)
assert_equals(c.name, self.cohort.name)
def test_get_empty(self):
assert_equals(self.empty_cohort.name, None)
@raises(NoResultFound)
def test_get_raises_exception_for_not_found_by_id(self):
self.cohort_service.get(self.session, self.owner_user_id, by_id=0)
@raises(NoResultFound)
def test_get_raises_exception_for_not_found_by_name(self):
self.cohort_service.get(self.session, self.owner_user_id, by_name='')
@raises(Unauthorized)
def test_get_unauthorized(self):
self.cohort_service.get(self.session, 0, by_id=self.cohort.id)
@raises(InvalidCohort)
def test_get_invalid(self):
self.cohort.validated = False
self.session.commit()
self.cohort_service.get(self.session, self.owner_user_id, by_id=self.cohort.id)
@raises(InvalidCohort)
def test_get_invalid_because_empty(self):
self.cohort_service.get(
self.session, self.owner_user_id, by_id=self.invalid_empty_cohort.id
)
def test_get_size(self):
assert_equals(self.fixed_cohort.size, 4)
def test_get_size_empty(self):
assert_equals(self.empty_cohort.size, 0)
def test_get_users_by_project(self):
c = self.cohort_service.get(
self.session, self.owner_user_id, by_id=self.cohort.id
)
by_project = self.cohort_service.get_users_by_project(c)
# NOTE: generator magic, couldn't get this to work without a loop
for p in by_project:
wikiusers = list(p[1])
assert_equals(set(self.editor_user_ids), set(wikiusers))
assert_equals(len(wikiusers), 4)
def test_get_wikiusers(self):
users = self.cohort_service.get_wikiusers(self.fixed_cohort, self.session)
assert_equals(users, self.editor_user_ids)
def test_get_wikiusers_limited(self):
users = self.cohort_service.get_wikiusers(self.fixed_cohort, self.session, 2)
assert_equals(len(users), 2)
def test_get_wikiusers_empty(self):
users = self.cohort_service.get_wikiusers(self.empty_cohort, self.session)
assert_equals(len(users), 0)
def test_wiki_cohort_group_by_project_works(self):
self.create_wiki_cohort()
c = self.cohort_service.get(
self.session, self.owner_user_id, by_id=self.basic_wiki_cohort.id
)
users_by_project = list(self.cohort_service.get_users_by_project(c))
assert_equals(len(users_by_project), 1)
assert_equals(users_by_project[0][0], mediawiki_project)
assert_equals(users_by_project[0][1], None)
def test_convert(self):
cohort = self.cohort_service.convert(self.cohort)
assert_true(issubclass(cohort.__class__, Cohort))
def test_add_wiki_cohort(self):
dewiki1 = self.cohort_service.add_wiki_cohort(self.session, 'dewiki')
assert_equals(dewiki1.name, 'dewiki')
assert_equals(dewiki1.default_project, 'dewiki')
assert_equals(type(dewiki1).__name__, 'WikiCohort')
assert_equals(dewiki1.enabled, True)
dewiki2 = self.cohort_service.add_wiki_cohort(self.session, 'dewiki')
# make sure the cohort doesn't get added twice
assert_equals(dewiki1.id, dewiki2.id)
def test_share(self):
cohorts = self.cohort_service.get_list(self.session, self.owner_user_id)
assert_true('dewiki' not in [c.default_project for c in cohorts])
dewiki = self.cohort_service.add_wiki_cohort(self.session, 'dewiki')
self.cohort_service.share(self.session, dewiki, self.owner_user_id)
cohorts = self.cohort_service.get_list(self.session, self.owner_user_id)
assert_true('dewiki' in [c.default_project for c in cohorts])
def test_wikiusernames_for_not_existing_cohort(self):
"""
If a cohort does not exist it returns an empty list of user names to make
things easy for the UI
"""
user_names = self.cohort_service.get_wikiusernames_for_cohort('9999',
self.session)
assert_equals(len(user_names.keys()), 0)
def test_wikiusernames(self):
"""
Make sure usernames can be retrieved using Wikiuserkey
"""
from wikimetrics.models.storage import (
WikiUserKey
)
# let's get two users and see that names match
# this returns a list of WikiUserStore objects
users = self.cohort_service.get_wikiusers(self.fixed_cohort, self.session, 2)
user1 = users[0]
key1 = WikiUserKey(user1.mediawiki_userid, user1.project,
user1.validating_cohort)
user2 = users[1]
key2 = WikiUserKey(user2.mediawiki_userid, user2.project,
user2.validating_cohort)
user_names = self.cohort_service.get_wikiusernames_for_cohort(
self.fixed_cohort.id, self.session)
assert_equals(user_names[key1], user1.mediawiki_username)
assert_equals(user_names[key2], user2.mediawiki_username)
def test_get_membership_contents(self):
"""
The wikiuser properties must be returned
under the expected data structure.
"""
wikiusers = self.session.query(WikiUserStore).all()
membership = self.cohort_service.get_membership(self.cohort, self.session)
assert_equals(len(membership), len(wikiusers))
for i in range(len(membership)):
wikiuser, member = wikiusers[i], membership[i]
assert_equals(len(membership), 4)
assert_equals(member['username'], wikiuser.mediawiki_username)
assert_equals(len(member['projects']), 1)
assert_equals(member['projects'][0], wikiuser.project)
assert_equals(len(member['invalidProjects']), 0)
assert_equals(len(member['invalidReasons']), 0)
def test_get_membership_group_by_username(self):
"""
The wikiusers must be grouped by username,
returning their projects, validities and reasons
in the corresponding lists.
"""
wikiusers = self.session.query(WikiUserStore).all()
username_1, username_2 = 'Username 1', 'Username 2'
project_1, project_2 = 'Project 1', 'Project 2'
reason_invalid_1 = 'Reason Invalid 1'
wikiusers[0].raw_id_or_name = username_1
wikiusers[1].raw_id_or_name = username_1
wikiusers[2].raw_id_or_name = username_2
wikiusers[2].project = project_1
wikiusers[3].raw_id_or_name = username_2
wikiusers[3].project = project_2
wikiusers[3].valid = False
wikiusers[3].reason_invalid = reason_invalid_1
self.session.commit()
membership = self.cohort_service.get_membership(self.cohort, self.session)
assert_equals(len(membership), 2)
assert_equals(membership[0]['raw_id_or_name'], username_1)
assert_equals(membership[1]['raw_id_or_name'], username_2)
assert_equals(membership[1]['projects'], [project_1, project_2])
assert_equals(membership[1]['invalidProjects'], [project_2])
assert_equals(membership[1]['invalidReasons'], [reason_invalid_1])
def test_get_membership_order_by_name(self):
wikiusers = self.session.query(WikiUserStore).all()
wikiusers[0].mediawiki_username = '******'
wikiusers[1].mediawiki_username = '******'
wikiusers[2].mediawiki_username = '******'
wikiusers[3].mediawiki_username = '******'
self.session.commit()
membership = self.cohort_service.get_membership(self.cohort, self.session)
assert_equals(len(membership), len(wikiusers))
assert_equals(membership[0]['username'], 'A')
assert_equals(membership[1]['username'], 'B')
assert_equals(membership[2]['username'], 'C')
assert_equals(membership[3]['username'], 'D')
def test_delete_cohort_wikiuser(self):
username = '******'
wikiuser = self.session.query(WikiUserStore).first()
wikiuser.raw_id_or_name = username
self.session.commit()
self.cohort_service.delete_cohort_wikiuser(
wikiuser.raw_id_or_name, self.cohort.id, self.owner_user_id, self.session)
wikiusers = (
self.session.query(WikiUserStore)
.filter(WikiUserStore.raw_id_or_name == username)
.filter(WikiUserStore.validating_cohort == self.cohort.id)
.all())
assert_equals(len(wikiusers), 0)
cohort_wikiusers = (
self.session.query(CohortWikiUserStore)
.filter(CohortWikiUserStore.cohort_id == self.cohort.id)
.filter(CohortWikiUserStore.wiki_user_id == wikiuser.id)
.all())
assert_equals(len(cohort_wikiusers), 0)
def test_delete_cohort_wikiuser_invalid_only(self):
username = '******'
wikiusers = self.session.query(WikiUserStore).all()
wikiusers[0].raw_id_or_name = username
wikiusers[1].raw_id_or_name = username
wikiusers[1].valid = False
wikiuser_ids = [wikiusers[0].id, wikiusers[1]]
self.session.commit()
self.cohort_service.delete_cohort_wikiuser(
username, self.cohort.id, self.owner_user_id, self.session, True)
wikiusers = (
self.session.query(WikiUserStore)
.filter(WikiUserStore.raw_id_or_name == username)
.filter(WikiUserStore.validating_cohort == self.cohort.id)
.all())
assert_equals(len(wikiusers), 1)
cohort_wikiusers = (
self.session.query(CohortWikiUserStore)
.filter(CohortWikiUserStore.cohort_id == self.cohort.id)
.filter(CohortWikiUserStore.wiki_user_id.in_(wikiuser_ids))
.all())
assert_equals(len(cohort_wikiusers), 1)
def test_delete_cohort_wikiuser_utf8(self):
username = '******'
wikiuser = self.session.query(WikiUserStore).first()
wikiuser.raw_id_or_name = username
self.session.commit()
self.cohort_service.delete_cohort_wikiuser(
username, self.cohort.id, self.owner_user_id, self.session)
wikiusers = (
self.session.query(WikiUserStore)
.filter(WikiUserStore.raw_id_or_name == username)
.filter(WikiUserStore.validating_cohort == self.cohort.id)
.all())
assert_equals(len(wikiusers), 0)
@raises(Unauthorized)
def test_delete_cohort_wikiuser_ownership(self):
self.cohort_service.delete_cohort_wikiuser(
'To Delete', self.cohort.id, self.owner_user_id + 1, self.session)
def test_is_owned_by_user_positive(self):
cohort_user = (
self.session.query(CohortUserStore)
.filter(CohortUserStore.cohort_id == self.cohort.id)
.one())
result = self.cohort_service.is_owned_by_user(
self.session, self.cohort.id, cohort_user.user_id)
assert_true(result)
def test_is_owned_by_user_negative(self):
cohort_user = (
self.session.query(CohortUserStore)
.filter(CohortUserStore.cohort_id == self.cohort.id)
.one())
result = self.cohort_service.is_owned_by_user(
self.session, self.cohort.id, cohort_user.user_id + 1)
assert_false(result)
@raises(Unauthorized)
def test_is_owned_by_user_exception(self):
cohort_user = (
self.session.query(CohortUserStore)
.filter(CohortUserStore.cohort_id == self.cohort.id)
.one())
self.cohort_service.is_owned_by_user(
self.session, self.cohort.id, cohort_user.user_id + 1, True)
@raises(Unauthorized)
def test_get_tag_exception(self):
tag = TagStore(name='some_tag')
self.session.add(tag)
self.session.commit()
cohort_tag = CohortTagStore(
tag_id=tag.id,
cohort_id=self.empty_cohort.id,
)
self.session.add(cohort_tag)
self.session.commit()
cohort_user = (
self.session.query(CohortUserStore)
.filter(CohortUserStore.cohort_id == self.empty_cohort.id)
.one())
self.cohort_service.get_tag(self.session, tag, self.empty_cohort.id,
cohort_user.user_id + 1)
def test_get_tag(self):
tag = TagStore(name='some_tag')
self.session.add(tag)
self.session.commit()
cohort_tag = CohortTagStore(
tag_id=tag.id,
cohort_id=self.empty_cohort.id,
)
self.session.add(cohort_tag)
self.session.commit()
cohort_user = (
self.session.query(CohortUserStore)
.filter(CohortUserStore.cohort_id == self.empty_cohort.id)
.one())
cohort_tags = self.cohort_service.get_tag(
self.session, tag, self.empty_cohort.id, cohort_user.user_id)
assert_equals(len(cohort_tags), 1)
@raises(Unauthorized)
def test_add_tag_exception(self):
tag = TagStore(name='some_tag')
self.session.add(tag)
self.session.commit()
cohort_user = (
self.session.query(CohortUserStore)
.filter(CohortUserStore.cohort_id == self.empty_cohort.id)
.one())
self.cohort_service.add_tag(self.session, tag, self.empty_cohort.id,
cohort_user.user_id + 1)
def test_add_tag(self):
tag = TagStore(name='some_tag')
self.session.add(tag)
self.session.commit()
cohort_user = (
self.session.query(CohortUserStore)
.filter(CohortUserStore.cohort_id == self.empty_cohort.id)
.one())
cohort_tags = self.cohort_service.get_tag(
self.session, tag, self.empty_cohort.id, cohort_user.user_id)
assert_equals(len(cohort_tags), 0)
self.cohort_service.add_tag(
self.session, tag, self.empty_cohort.id, cohort_user.user_id)
cohort_tags = self.cohort_service.get_tag(
self.session, tag, self.empty_cohort.id, cohort_user.user_id)
assert_equals(len(cohort_tags), 1)
def __init__(self, parameters, user_id=0, recurrent_parent_id=None, created=None):
"""
Parameters:
parameters : dictionary containing the following required keys:
name : the name of the report
cohort : dictionary defining the cohort, has keys:
id : the id of the cohort
metric : dictionary defining the metric, has keys:
name : the name of the python class to instantiate
recurrent : whether to rerun this daily
public : whether to expose results publicly
user_id : the user wishing to run this report
recurrent_parent_id : the parent ReportStore.id for a recurrent run
created : if set, represents the date of a recurrent run
Raises:
KeyError if required parameters are missing
"""
# get cohort
cohort_service = CohortService()
cohort_dict = parameters['cohort']
session = db.get_session()
try:
cohort = cohort_service.get(session, user_id, by_id=cohort_dict['id'])
finally:
session.close()
parameters['cohort']['size'] = cohort.size
# construct metric
metric_dict = parameters['metric']
metric = metric_classes[metric_dict['name']](**metric_dict)
# if this is a recurrent run, don't show it in the UI
if recurrent_parent_id is not None:
self.show_in_ui = False
public = parameters.get('public', False)
super(RunReport, self).__init__(
name=parameters['name'],
user_id=user_id,
parameters=parameters,
public=public,
recurrent=parameters.get('recurrent', False),
recurrent_parent_id=recurrent_parent_id,
created=created,
)
self.recurrent_parent_id = recurrent_parent_id
self.public = public
validate_report = ValidateReport(
metric, cohort, recurrent_parent_id is None, user_id=user_id
)
if validate_report.valid():
self.children = [AggregateReport(
metric, cohort, metric_dict, parameters=parameters, user_id=user_id
)]
else:
self.children = [validate_report]