def query_experiment_sets():
"""This queries all the replicates of an experiment and groups them for further processing"""
experiment_sets = {}
ome = base.Session()
RNASeqExperiment = datasets.RNASeqExperiment
ArrayExperiment = datasets.ArrayExperiment
ChIPExperiment = datasets.ChIPExperiment
experiment_sets['RNAseq'] = ome.query(func.array_agg(RNASeqExperiment.name),RNASeqExperiment.group_name).\
group_by(RNASeqExperiment.group_name, RNASeqExperiment.strain_id,
RNASeqExperiment.environment_id, RNASeqExperiment.machine_id,
RNASeqExperiment.sequencing_type).all()
experiment_sets['array'] = ome.query(func.array_agg(ArrayExperiment.name)).\
group_by(ArrayExperiment.strain_id, ArrayExperiment.environment_id,\
ArrayExperiment.platform).all()
experiment_sets['ChIP'] = ome.query(func.array_agg(ChIPExperiment.name)).\
group_by(ChIPExperiment.strain_id, ChIPExperiment.environment_id,\
ChIPExperiment.antibody, ChIPExperiment.protocol_type,\
ChIPExperiment.target).all()
ome.close()
return experiment_sets
def query_person_contacts():
return (
DBSession.query(
Person.id.label('person_id'),
func.array_to_string(
func.array_agg(
case([(Contact.contact_type == 'phone', Contact.contact)])
),
', '
).label('phone'),
func.array_to_string(
func.array_agg(
case([(Contact.contact_type == 'email', Contact.contact)])
),
', '
).label('email'),
func.array_to_string(
func.array_agg(
case([(Contact.contact_type == 'skype', Contact.contact)])
),
', '
).label('skype'),
)
.join(Contact, Person.contacts)
.group_by(Person.id)
)
def _get_permissions_query(self, session, identifier):
"""
select domain, json_agg(parts) as permissions from
(select domain, row_to_json(r) as parts from
(select domain, action, array_agg(distinct target) as target from
(select (case when domain is null then '*' else domain end) as domain,
(case when target is null then '*' else target end) as target,
array_agg(distinct (case when action is null then '*' else action end)) as action
from permission
group by domain, target
) x
group by domain, action)
r) parts
group by domain;
"""
thedomain = case([(Domain.name == None, "*")], else_=Domain.name)
theaction = case([(Action.name == None, "*")], else_=Action.name)
theresource = case([(Resource.name == None, "*")], else_=Resource.name)
action_agg = func.array_agg(theaction.distinct())
stmt1 = (
session.query(
Permission.domain_id,
thedomain.label("domain"),
Permission.resource_id,
theresource.label("resource"),
action_agg.label("action"),
)
.select_from(User)
.join(role_membership_table, User.pk_id == role_membership_table.c.user_id)
.join(role_permission_table, role_membership_table.c.role_id == role_permission_table.c.role_id)
.join(Permission, role_permission_table.c.permission_id == Permission.pk_id)
.outerjoin(Domain, Permission.domain_id == Domain.pk_id)
.outerjoin(Action, Permission.action_id == Action.pk_id)
.outerjoin(Resource, Permission.resource_id == Resource.pk_id)
.filter(User.identifier == identifier)
.group_by(Permission.domain_id, Domain.name, Permission.resource_id, Resource.name)
).subquery()
stmt2 = (
session.query(stmt1.c.domain, stmt1.c.action, func.array_agg(stmt1.c.resource.distinct()).label("resource"))
.select_from(stmt1)
.group_by(stmt1.c.domain, stmt1.c.action)
).subquery()
stmt3 = (
session.query(stmt2.c.domain, func.row_to_json(as_row(stmt2)).label("parts")).select_from(stmt2)
).subquery()
final = (
session.query(stmt3.c.domain, cast(func.json_agg(stmt3.c.parts), Text))
.select_from(stmt3)
.group_by(stmt3.c.domain)
)
return final
def percentage_by_district(self):
""" Returns the percentage of votes aggregated by the distict. Includes
uncounted districts and districts with no results available.
"""
results = self.election.results
results = results.join(ElectionResult.candidate_results)
results = results.filter(CandidateResult.candidate_id == self.id)
results = results.with_entities(
ElectionResult.district.label('name'),
func.array_agg(ElectionResult.entity_id).label('entities'),
func.coalesce(
func.bool_and(ElectionResult.counted), False
).label('counted'),
func.sum(ElectionResult.accounted_ballots).label('total'),
func.sum(CandidateResult.votes).label('votes'),
)
results = results.group_by(ElectionResult.district)
results = results.order_by(None)
results = results.all()
percentage = {
r.name: {
'counted': r.counted,
'entities': r.entities,
'percentage': 100 * (r.votes / r.total) if r.total else 0.0
} for r in results
}
empty = self.election.results
empty = empty.with_entities(
ElectionResult.district.label('name'),
func.array_agg(ElectionResult.entity_id).label('entities'),
func.coalesce(
func.bool_and(ElectionResult.counted), False
).label('counted')
)
empty = empty.group_by(ElectionResult.district)
empty = empty.order_by(None)
for result in empty:
update = (
result.name not in percentage
or (
set(percentage[result.name]['entities'])
!= set(result.entities)
)
)
if update:
percentage[result.name] = {
'counted': result.counted,
'entities': result.entities,
'percentage': 0.0
}
return percentage
def _get_nonldap_sources(session):
sources = session.query(
CtiDirectories.name,
CtiDirectories.uri,
Directories.dirtype,
Directories.xivo_username,
Directories.xivo_password,
Directories.xivo_verify_certificate,
Directories.xivo_custom_ca_path,
CtiDirectories.delimiter,
CtiDirectories.match_direct,
CtiDirectories.match_reverse,
func.array_agg(CtiDirectoryFields.fieldname).label('fields'),
func.array_agg(CtiDirectoryFields.value).label('values'),
).join(
Directories,
Directories.uri == CtiDirectories.uri
).outerjoin(
CtiDirectoryFields,
CtiDirectoryFields.dir_id == CtiDirectories.id
).group_by(
CtiDirectories.name,
CtiDirectories.uri,
Directories.dirtype,
Directories.xivo_username,
Directories.xivo_password,
Directories.xivo_verify_certificate,
Directories.xivo_custom_ca_path,
CtiDirectories.delimiter,
CtiDirectories.match_direct,
CtiDirectories.match_reverse,
)
source_configs = []
for source in sources.all():
source_config = {
'name': source.name,
'type': source.dirtype,
'uri': source.uri,
'delimiter': source.delimiter,
'searched_columns': json.loads(source.match_direct or '[]'),
'first_matched_columns': json.loads(source.match_reverse or '[]'),
'format_columns': _format_columns(source.fields, source.values),
}
if source.dirtype == 'xivo':
source_config['xivo_username'] = source.xivo_username
source_config['xivo_password'] = source.xivo_password
source_config['xivo_verify_certificate'] = source.xivo_verify_certificate
source_config['xivo_custom_ca_path'] = source.xivo_custom_ca_path
source_configs.append(source_config)
return source_configs
def query_profile_tag_classes(config_tag_classes, public_tag_classes):
config_tag_queries = [
query_value_with_option_type_label(tag_class.query, tag_class, name)
for tag_class, name in config_tag_classes
]
public_tag_queries = [
query_value_with_option_type_label(tag_class.query, tag_class,
name).filter(
tag_class.public.is_(True))
for tag_class, name in public_tag_classes
]
queries = config_tag_queries + public_tag_queries
select = union_queries(queries).order_by("value")
cte = select.cte("tags")
result = db.session.query(cte.columns.option_type,
func.array_agg(cte.columns.value)).group_by(
cte.columns.option_type)
# Need to default to empty list for each tag type, since tags with no
# searchable values will not be in the result
empty_values = {
name: []
for _, name in [*config_tag_classes, *public_tag_classes]
}
return {**empty_values, **dict(result)}
def results_by_district(self):
""" Returns the results aggregated by the distict. """
counted = func.coalesce(func.bool_and(BallotResult.counted), False)
yeas = func.sum(BallotResult.yeas)
nays = func.sum(BallotResult.nays)
yeas_percentage = 100 * yeas / (
cast(func.coalesce(func.nullif(yeas + nays, 0), 1), Float)
)
nays_percentage = 100 - yeas_percentage
accepted = case({True: yeas > nays}, counted)
results = self.results.with_entities(
BallotResult.district.label('name'),
counted.label('counted'),
accepted.label('accepted'),
yeas.label('yeas'),
nays.label('nays'),
yeas_percentage.label('yeas_percentage'),
nays_percentage.label('nays_percentage'),
func.sum(BallotResult.empty).label('empty'),
func.sum(BallotResult.invalid).label('invalid'),
func.sum(BallotResult.eligible_voters).label('eligible_voters'),
func.array_agg(BallotResult.entity_id).label('entity_ids')
)
results = results.group_by(BallotResult.district)
results = results.order_by(None).order_by(BallotResult.district)
return results
def set_available_langs(documents, loaded=False):
"""Load and set the available langs for the given documents.
"""
if len(documents) == 0:
return
if loaded:
# all locales are already loaded, so simply set the attribute
for document in documents:
document.available_langs = [
locale.lang for locale in document.locales
]
else:
document_ids = [doc.document_id for doc in documents]
documents_for_id = {doc.document_id: doc for doc in documents}
# aggregate the langs per document into an array
lang_agg = func.array_agg(
DocumentLocale.lang, type_=postgresql.ARRAY(String)).label('langs')
langs_per_doc = DBSession.query(
DocumentLocale.document_id, lang_agg). \
filter(DocumentLocale.document_id.in_(document_ids)). \
group_by(DocumentLocale.document_id). \
all()
for document_id, langs in langs_per_doc:
document = documents_for_id.get(document_id)
document.available_langs = langs
def start_requests(self):
summary_utc = datetime.utcnow() - timedelta(days=1)
db_engine = create_engine(self.settings.get('SQLALCHEMY_DATABASE_URI'))
db_session = sessionmaker(bind=db_engine)()
db_query = db_session.query(LiveTVSite.id.label('site_id'), LiveTVRoom.id.label('room_id'),
LiveTVRoom.url.label('room_url'),
LiveTVRoomPresent.crawl_date_format.label('summary_date'),
func.array_agg(LiveTVRoomPresent.online).label('online_list'))\
.join(LiveTVSite, LiveTVRoom, LiveTVRoomPresent)\
.filter(LiveTVRoomPresent.crawl_date_format == summary_utc.strftime(DAILY_DATE_FORMAT))\
.group_by(LiveTVSite.id, LiveTVRoom.id, LiveTVRoom.url, LiveTVRoomPresent.crawl_date_format)
for group_row in db_query:
meta_info = {
'site_id': group_row.site_id,
'room_id': group_row.room_id,
'summary_date': group_row.summary_date,
'online': numpy.median(group_row.online_list)
}
room = self.session.query(LiveTVRoom).filter_by(id=meta_info['room_id']).one_or_none()
if room:
yield DailyItem(site_id=group_row.site_id, room_id=group_row.room_id,
summary_date=group_row.summary_date, online=numpy.median(group_row.online_list),
followers=room.followers, description=room.description, announcement=room.announcement,
fallback=False)
db_session.close()
def build_query_to_populate(self, query, full_table, aggregate_table):
insert_columns = [aggregate_table.c.rtt_samples]
mean = full_table.c.sumrtt / full_table.c.countrtt
is_safe = full_table.c.countrtt > 0
safe_mean = case([(is_safe, mean)], else_ = None)
select_query = (query.column(func.array_agg(safe_mean)))
return insert_columns, select_query
def get_rates_by_dates_for_currency_in_period(self, currency, start_date, end_date):
"""
:type currency: str
:type start_date: datetime.date
:type end_date: datetime.date
:rtype: dict[datetime.date, list[decimal.Decimal]]
"""
result = self.db_session\
.query(
ExchangeRate.date,
func.array_agg(aggregate_order_by(ExchangeRate.rate, ExchangeRate.provider_id.asc()))
)\
.filter(
and_(
ExchangeRate.date >= start_date,
ExchangeRate.date <= end_date,
ExchangeRate.currency == currency,
ExchangeRate.rate.isnot(None)
)
)\
.group_by(ExchangeRate.date)\
.order_by(ExchangeRate.date)\
.all()
return {r[0]: list(r[1]) for r in result}
def upgrade():
if not is_sqlite:
connection = op.get_bind()
attendees = connection.execute(select([
attendee_table.c.hotel_pin,
func.count(attendee_table.c.id),
func.array_agg(attendee_table.c.id),
]).where(and_(
attendee_table.c.hotel_pin != None,
attendee_table.c.hotel_pin != '',
)).group_by(
attendee_table.c.hotel_pin,
).having(
func.count(attendee_table.c.id) > 1,
))
for hotel_pin, count, ids in attendees:
hotel_pin_template = '{{:0{}d}}{{}}'.format(len(str(count))) if count > 9 else '{}{}'
for i, id in enumerate(ids):
new_hotel_pin = hotel_pin_template.format(i, hotel_pin)
connection.execute(
attendee_table.update().where(attendee_table.c.id == id).values({
'hotel_pin': new_hotel_pin,
})
)
op.create_unique_constraint(op.f('uq_attendee_hotel_pin'), 'attendee', ['hotel_pin'])
def get_published_briefs(self):
subquery = (
db
.session
.query(
BriefUser.brief_id,
func.array_agg(func.substring(User.email_address, '@(.*)')).label('domain')
)
.join(User)
.group_by(BriefUser.brief_id)
.subquery()
)
result = (
db
.session
.query(
Brief.id,
Brief.data['organisation'].astext.label('organisation'),
Brief.published_at,
Brief.withdrawn_at,
Brief.data['title'].astext.label('title'),
Brief.data['sellerSelector'].astext.label('openTo'),
Brief.data['areaOfExpertise'].astext.label('brief_category'),
Lot.name.label('brief_type'),
subquery.columns.domain[1].label('publisher_domain')
)
.join(subquery, Brief.id == subquery.columns.brief_id)
.join(Lot)
.filter(Brief.published_at.isnot(None))
.order_by(Brief.id)
.all()
)
return [r._asdict() for r in result]
def set_available_langs(documents, loaded=False):
"""Load and set the available langs for the given documents.
"""
if len(documents) == 0:
return
if loaded:
# all locales are already loaded, so simply set the attribute
for document in documents:
document.available_langs = [
locale.lang for locale in document.locales]
else:
document_ids = [doc.document_id for doc in documents]
documents_for_id = {doc.document_id: doc for doc in documents}
# aggregate the langs per document into an array
lang_agg = func.array_agg(
DocumentLocale.lang,
type_=postgresql.ARRAY(String)).label('langs')
langs_per_doc = DBSession.query(
DocumentLocale.document_id, lang_agg). \
filter(DocumentLocale.document_id.in_(document_ids)). \
group_by(DocumentLocale.document_id). \
all()
for document_id, langs in langs_per_doc:
document = documents_for_id.get(document_id)
document.available_langs = langs
def build_query_to_populate(self, query, full_table, aggregate_table):
insert_columns = [aggregate_table.c.upload_samples]
mean = full_table.c.upload_octets / full_table.c.upload_time
is_safe = and_(full_table.c.upload_time > 0, full_table.c.download_flag == 'f')
safe_mean = case([(is_safe, mean)], else_ = None)
select_query = (query.column(func.array_agg(safe_mean)))
return insert_columns, select_query
def _daily_stats_agg_query(session):
agg = lambda f, c: f(c).label(c.name)
class DailyStatsBundle(Bundle):
def create_row_processor(self, query, procs, labels):
"""Override create_row_processor to return values as dictionaries"""
from pyroaring import BitMap
def proc(row):
row = dict(zip(labels, (proc(row) for proc in procs)))
bm = BitMap.union(
*map(BitMap.deserialize, row.pop('_active_users')))
row['active_users'] = len(bm)
return row
return proc
stats = DailyStatsBundle(
'stats', agg(func.sum, DailyStats.post_count),
agg(func.sum, DailyStats.edit_count),
agg(func.sum, DailyStats.threads_created),
func.array_agg(DailyStats.active_users).label('_active_users'),
cast(
func.sum(DailyStats.posts_length) /
func.sum(DailyStats.post_count), Integer).label('avg_post_length'))
return session.query(stats)
def search_datasets_query(expressions,
source_exprs=None,
select_fields=None,
with_source_ids=False):
# type: (Tuple[Expression], Tuple[Expression], Iterable[PgField], bool) -> sqlalchemy.Expression
if select_fields:
select_columns = tuple(
f.alchemy_expression.label(f.name) for f in select_fields)
else:
select_columns = _DATASET_SELECT_W_LOCAL
if with_source_ids:
# Include the IDs of source datasets
select_columns += (select(
(func.array_agg(DATASET_SOURCE.c.source_dataset_ref),
)).select_from(DATASET_SOURCE).where(
DATASET_SOURCE.c.dataset_ref == DATASET.c.id).group_by(
DATASET_SOURCE.c.dataset_ref).label('dataset_refs'), )
raw_expressions = PostgresDbAPI._alchemify_expressions(expressions)
from_expression = PostgresDbAPI._from_expression(
DATASET, expressions, select_fields)
where_expr = and_(DATASET.c.archived == None, *raw_expressions)
if not source_exprs:
return (select(select_columns).select_from(from_expression).where(
where_expr))
base_query = (select(select_columns + (
DATASET_SOURCE.c.source_dataset_ref, literal(1).label('distance'),
DATASET_SOURCE.c.classifier.label('path'))).select_from(
from_expression.join(
DATASET_SOURCE,
DATASET.c.id == DATASET_SOURCE.c.dataset_ref)).where(
where_expr)).cte(name="base_query", recursive=True)
recursive_query = base_query.union_all(
select([
col for col in base_query.columns
if col.name not in ['source_dataset_ref', 'distance', 'path']
] + [
DATASET_SOURCE.c.source_dataset_ref, (base_query.c.distance +
1).label('distance'),
(base_query.c.path + '.' +
DATASET_SOURCE.c.classifier).label('path')
]).select_from(
base_query.join(
DATASET_SOURCE, base_query.c.source_dataset_ref ==
DATASET_SOURCE.c.dataset_ref)))
return (select([distinct(recursive_query.c.id)] + [
col for col in recursive_query.columns if col.name not in
['id', 'source_dataset_ref', 'distance', 'path']
]).select_from(
recursive_query.join(
DATASET,
DATASET.c.id == recursive_query.c.source_dataset_ref)).where(
and_(DATASET.c.archived == None,
*PostgresDbAPI._alchemify_expressions(source_exprs))))
def _light_no_filter_query(self, processed_filters, limit=JR_PAGE_LENGTH):
"""If there's no filter to shorten the query (eg we're just selecting
all feed with no category) we make a request more adapted to the task.
"""
sub_query = session.query(*JR_SQLA_FIELDS)\
.filter(*processed_filters)\
.order_by(Cluster.main_date.desc())\
.cte('clu')
aggreg_feed = func.array_agg(Article.feed_id).label('feeds_id')
aggreg_cat = func.array_agg(Article.category_id).label('categories_id')
query = (session.query(sub_query, aggreg_feed, aggreg_cat).join(
Article, Article.cluster_id == sub_query.c.id).filter(
Article.user_id == self.user_id))
yield from self._iter_on_query(
query.group_by(*sub_query.c).order_by(
sub_query.c.main_date.desc()).limit(limit))
def test_funcfilter_arrayagg_subscript(self):
num = column("q")
self.assert_compile(
func.array_agg(num).filter(num % 2 == 0)[1],
"(array_agg(q) FILTER (WHERE q %% %(q_1)s = "
"%(param_1)s))[%(param_2)s]",
dialect="postgresql",
)
def get_correct_answers(cls, lesson_id, session):
answers_agg = func.array_agg(ChoiceModel.id, type_=ARRAY(UUID)).label('answers')
return session.query(ChoiceModel.question_id, QuestionModel.score, QuestionModel.type_question, answers_agg). \
join(QuestionModel.choices) \
.filter(QuestionModel.lesson_id == lesson_id, ChoiceModel.is_correct) \
.group_by(ChoiceModel.question_id).group_by(QuestionModel.score) \
.group_by(QuestionModel.type_question)\
.all()
def y(cls):
s = database.Session.object_session(cls)
arrunnest = func.unnest(cls.indices)
xarr = (func.unnest(cls.indices) / cls.size).label('xarrind')
arrind = (arrunnest - xarr * cls.size).label('yarrind')
y = s.query(arrind).select_from(cls).subquery('yarr')
yagg = s.query(func.array_agg(y.c.yarrind))
return yagg.as_scalar()
def get_fields_query(self):
labels_query = select([
models.session_label.c.session_id, models.session_label.c.label_id
]).where(models.session_label.c.session_id ==
models.Session.id).distinct().correlate(
models.Session).alias()
return select([
label("_type", text("'session'")),
label("_index", text("'session'")),
label("_id", models.Session.id),
*[
getattr(models.Session, column_name)
for column_name in models.Session.__table__.columns.keys()
if column_name not in {'timespan', 'parameters'}
],
models.User.email.label('user_email'),
select([
func.array_agg(
func.json_build_object('timestamp', models.Error.timestamp,
'message', models.Error.message))
]).where(models.Error.session_id == models.Session.id).label(
'session_errors'),
select([
func.array_agg(
func.json_build_object('timestamp',
models.Warning.timestamp, 'message',
models.Warning.message))
]).where(models.Warning.session_id == models.Session.id).label(
'session_warnings'),
select([
func.array_agg(
func.json_build_object("name", models.Label.name))
]).select_from(
labels_query.join(
models.Label,
models.Label.id == labels_query.c.label_id)).label(
'session_labels'),
select([
func.json_object_agg(models.SessionMetadata.key,
models.SessionMetadata.metadata_item)
]).where(models.SessionMetadata.session_id ==
models.Session.id).label('session_metadata'),
]).select_from(
models.Session.__table__.outerjoin(
models.User.__table__,
models.Session.user_id == models.User.id))
def blacklist_filter(self):
db = object_session(self)
if db.query(BlacklistedTag).filter(BlacklistedTag.user_id == self.id).first() is None:
return None
return ~Request.tag_ids.overlap(
db.query(func.array_agg(BlacklistedTag.tag_id))
.filter(BlacklistedTag.user_id == self.id)
)
def _get_ldap_sources(session):
ldap_cti_directories = session.query(
CtiDirectories.name,
CtiDirectories.uri,
CtiDirectories.match_direct,
CtiDirectories.match_reverse,
func.array_agg(CtiDirectoryFields.fieldname).label('fields'),
func.array_agg(CtiDirectoryFields.value).label('values'),
).outerjoin(
CtiDirectoryFields,
CtiDirectoryFields.dir_id == CtiDirectories.id
).filter(
CtiDirectories.uri.like('ldapfilter://%%')
).group_by(
CtiDirectories.name,
CtiDirectories.uri,
CtiDirectories.match_direct,
CtiDirectories.match_reverse,
)
source_configs = []
for dir in ldap_cti_directories.all():
_, _, name = dir.uri.partition('ldapfilter://')
try:
ldap_config = ldap_dao.build_ldapinfo_from_ldapfilter(name)
except LookupError:
logger.warning('Skipping LDAP source %s', dir.name)
continue
custom_filter = ldap_config.get('filter') or ''
if custom_filter:
custom_filter = '({})'.format(custom_filter)
source_configs.append({'type': 'ldap',
'name': dir.name,
'searched_columns': json.loads(dir.match_direct or '[]'),
'first_matched_columns': json.loads(dir.match_reverse or '[]'),
'format_columns': _format_columns(dir.fields, dir.values),
'ldap_uri': ldap_config['uri'],
'ldap_base_dn': ldap_config['basedn'],
'ldap_username': ldap_config['username'],
'ldap_password': ldap_config['password'],
'ldap_custom_filter': custom_filter})
return source_configs
def get_advanced_search_query(employer_id, params, status):
skills = params.get('skills')
locations = params.get('locations')
role = params.get('role')
name = params.get('name')
salary = params.get('salary')
query = DBSession.query(Candidate.id).filter(Candidate.status == status)
if employer_id:
query = query.outerjoin(V_CANDIDATE_CURRENT_EMPLOYERS,
and_(V_CANDIDATE_CURRENT_EMPLOYERS.c.candidate_id == Candidate.id,
V_CANDIDATE_CURRENT_EMPLOYERS.c.employer_id == employer_id)) \
.filter(V_CANDIDATE_CURRENT_EMPLOYERS.c.candidate_id == None)
if locations:
query = query.join(PreferredLocation, Candidate.id == PreferredLocation.candidate_id)
country_filter = set([c['country_iso'] for c in locations])
city_filter = [and_(City.name == loc['city'], City.country_iso == loc['country_iso']) for loc in locations]
city_ids = DBSession.query(City.id).filter(or_(*city_filter)).all()
query = query.filter(or_(PreferredLocation.city_id.in_(city_ids),
PreferredLocation.country_iso.in_(country_filter)))
if salary or role:
query = query.join(TargetPosition)
if salary:
query = query.filter(TargetPosition.minimum_salary <= salary)
if role:
role = get_by_name_or_raise(Role, role)
query = query.filter(TargetPosition.role_id == role.id)
if name and employer_id:
name = name.lower()
employer_ids = func.array_agg(Offer.employer_id, type_=ARRAY(TEXT)).label('employer_ids')
offer_query = DBSession.query(Offer.candidate_id, employer_ids).filter(Offer.accepted != None) \
.group_by(Offer.candidate_id).subquery()
query = query.outerjoin(offer_query, offer_query.c.candidate_id == Candidate.id).filter(
or_(cast(Candidate.id, TEXT).startswith(name),
and_(
or_(func.lower(Candidate.first_name).startswith(name),
func.lower(Candidate.last_name).startswith(name)),
or_(
offer_query.c.employer_ids.any(str(employer_id)),
Candidate.anonymous == False
)
)
)
)
query = query.group_by(Candidate.id)
if skills:
query = query.join(CandidateSkill).join(Skill).filter(Skill.name.in_(skills)) \
.having(func.count(Skill.name) == len(skills))
return query
class OptimizationProcedureORM(ProcedureMixin, BaseResultORM):
"""
An Optimization procedure
"""
__tablename__ = 'optimization_procedure'
id = Column(Integer, ForeignKey('base_result.id', ondelete='cascade'), primary_key=True)
def __init__(self, **kwargs):
kwargs.setdefault("version", 1)
self.procedure = "optimization"
super().__init__(**kwargs)
schema_version = Column(Integer, default=1)
initial_molecule = Column(Integer, ForeignKey('molecule.id'))
initial_molecule_obj = relationship(MoleculeORM, lazy='select', foreign_keys=initial_molecule)
# # Results
energies = Column(JSON) #Column(ARRAY(Float))
final_molecule = Column(Integer, ForeignKey('molecule.id'))
final_molecule_obj = relationship(MoleculeORM, lazy='select', foreign_keys=final_molecule)
# ids, calculated not stored in this table
# NOTE: this won't work in SQLite since it returns ARRAYS, aggregate_order_by
trajectory = column_property(
select([func.array_agg(aggregate_order_by(Trajectory.result_id,
Trajectory.position))]).where(Trajectory.opt_id == id))
# array of objects (results) - Lazy - raise error of accessed
trajectory_obj = relationship(Trajectory, cascade="all, delete-orphan",
# backref="optimization_procedure",
order_by=Trajectory.position,
collection_class=ordering_list('position'))
__mapper_args__ = {
'polymorphic_identity': 'optimization_procedure',
# to have separate select when querying BaseResultsORM
'polymorphic_load': 'selectin',
}
__table_args__ = (
Index('ix_optimization_program', 'program'), # todo: needed for procedures?
)
def update_relations(self, trajectory=None, **kwarg):
# update optimization_results relations
# self._update_many_to_many(opt_result_association, 'opt_id', 'result_id',
# self.id, trajectory, self.trajectory)
self.trajectory_obj = []
trajectory = [] if not trajectory else trajectory
for result_id in trajectory:
traj = Trajectory(opt_id=int(self.id), result_id=int(result_id))
self.trajectory_obj.append(traj)
def add_outcomes(
self,
feature_query,
):
# The events table holds all the events, not just conversion ones
relevant_events = self.bq_session.query(
self.events.c['time'].cast(DATE).label('date'),
self.events.c['type'].label('outcome'),
self.events.c['user_id'].label('user_id')).filter(
and_(
self.events.c['type'].in_(list(LABELS.keys())),
cast(self.events.c['time'], DATE) > cast(
self.aggregation_time, DATE),
cast(self.events.c['time'], DATE) <= cast(
self.aggregation_time +
timedelta(days=EVENT_LOOKAHEAD), DATE))).subquery()
# TODO: Remove deduplication, once the event table doesn't contain any
relevant_events_deduplicated = self.bq_session.query(
relevant_events.c['date'],
relevant_events.c['user_id'],
# This case when provides logic for dealing with multiple outcomes during the same time period
# an example is user_id 195379 during the 4/2020 where the user renews, but then cancels and gets
# a refund (the current pipeline provides both labels)
case(
[
# If there is at least one churn event, we identify the user as churned
(literal(self.negative_label()).in_(
func.unnest(
func.array_agg(relevant_events.c['outcome']))),
self.negative_label())
],
# In case of any number of any positive only events we consider the event as a renewal
else_=self.positive_label()).label('outcome')).group_by(
relevant_events.c['date'].label('date'),
relevant_events.c['user_id'].label('user_id')).subquery()
feature_query_w_outcome = self.bq_session.query(
*[
column.label(column.name) for column in feature_query.columns
if column.name not in ['user_id', 'date', 'outcome_date']
],
func.coalesce(
feature_query.c['user_id'],
relevant_events_deduplicated.c['user_id']).label('user_id'),
func.coalesce(feature_query.c['date'],
self.aggregation_time.date()).label('date'),
relevant_events_deduplicated.c['outcome'].label('outcome'),
func.coalesce(relevant_events_deduplicated.c['date'],
feature_query.c['outcome_date'].cast(DATE)).
label('outcome_date')).outerjoin(
relevant_events_deduplicated,
feature_query.c['user_id'] == relevant_events_deduplicated.
c['user_id']).subquery('feature_query_w_outcome')
return feature_query_w_outcome
def get_group_team_stats(self, replay_ids, session=None):
query = session.query(PlayerGame.game, func.array_agg(
aggregate_order_by(PlayerGame.player, PlayerGame.player)).label("team")).filter(
PlayerGame.game.in_(replay_ids)).group_by(PlayerGame.game).group_by(
PlayerGame.is_orange).subquery()
teams = session.query(query.c.team, func.array_agg(query.c.game)).group_by(query.c.team).all()
return {
"teamStats": [
{
"team": team[0],
"games": team[1],
"names": [name for (name,) in session.query(func.min(PlayerGame.name)).filter(
PlayerGame.game.in_(team[1])).filter(
PlayerGame.player.in_(team[0])).order_by(
PlayerGame.player).group_by(PlayerGame.player).all()],
**self._create_group_stats(session, player_filter=team[0], replay_ids=team[1])
}
for team in teams]
}
def get_recipe_aggregated_ingredients(self):
t_i = aliased(Ingredient)
t_r = aliased(Recipe)
t_ri = aliased(RecipeIngredient)
return (self.session.query(
t_r.id, t_r.title,
func.array_agg(t_i.ing_name).label('ings')).join(
t_ri, t_ri.recipe_id == t_r.id).join(
t_i, t_ri.ingredient_id == t_i.id).group_by(
t_r.id).group_by(t_r.title).all())
def get_brands_summary():
'''Prints out each brand name, and each model name for that brand
using only ONE database query.'''
list_of_all = db.session.query(Model.brand_name,
label("models", func.array_agg(Model.name))).group_by(Model.brand_name).all()
for item in list_of_all:
print
print "Brand: %s, Model %s, " % (item.brand_name, set(item.models))
def query_callback(from_query):
filtered_persons = from_query.cte('filtered_persons')
with_memberships = self.context.session.query(
filtered_persons,
func.count(
Membership.id.distinct()).label('membership_count'),
func.array_agg(Group.id.distinct()).label('group_ids'),
func.array_agg(Group.name.distinct()).label('group_names'),
func.count(
Contributor.work_id.distinct()).label('work_count'))
with_memberships = with_memberships.outerjoin(
Contributor,
Contributor.person_id == filtered_persons.c.id)
with_memberships = with_memberships.outerjoin(
Membership, Membership.person_id == filtered_persons.c.id)
with_memberships = with_memberships.outerjoin(
Group, Group.id == Membership.group_id).group_by(
filtered_persons.c.id, filtered_persons.c.name)
return with_memberships.order_by(filtered_persons.c.name)
class CustomArtist(Artist):
area = relationship('CustomArea', foreign_keys=[Artist.area_id])
begin_area = relationship('CustomArea',
foreign_keys=[Artist.begin_area_id])
end_area = relationship('CustomArea', foreign_keys=[Artist.end_area_id])
tags = relationship('ArtistTag')
artist_credit_names = relationship("ArtistCreditName", innerjoin=True)
primary_aliases = column_property(
select([func.array_agg(ArtistAlias.name)]).where(
and_(ArtistAlias.artist_id == Artist.id,
ArtistAlias.primary_for_locale == True)))
def test_aggregate_order_by_one(self):
m = MetaData()
table = Table('table1', m, Column('a', Integer), Column('b', Integer))
expr = func.array_agg(aggregate_order_by(table.c.a, table.c.b.desc()))
stmt = select([expr])
# note this tests that the object exports FROM objects
# correctly
self.assert_compile(
stmt, "SELECT array_agg(table1.a ORDER BY table1.b DESC) "
"AS array_agg_1 FROM table1")
async def select_all_resource_contracts(conn: SAConn) -> RowProxy:
cursor = await conn.execute(select([mainresource, func.array_agg(contract.c.id), func.array_agg(contract.c.name),
association_t.c.mainresource_id]).apply_labels().
where
(and_
(association_t.c.mainresource_id==mainresource.c.id,
association_t.c.contract_id==contract.c.id)).
group_by(mainresource.c.id, mainresource.c.name, association_t.c.mainresource_id))
item = await cursor.fetchall()
return item
def test_array_agg_array_literal_explicit_type(self):
from sqlalchemy.dialects.postgresql import array
expr = array([column('data', Integer), column('d2', Integer)])
agg_expr = func.array_agg(expr, type_=ARRAY(Integer))
is_(agg_expr.type._type_affinity, ARRAY)
is_(agg_expr.type.item_type._type_affinity, Integer)
self.assert_compile(agg_expr,
"array_agg(ARRAY[data, d2])",
dialect="postgresql")
def correlation(min_racers=5):
"""Calculates the Spearman correlation for races with the given minimum
number of racers."""
results = Results.query \
.filter(Results.Place != None) \
.with_entities(Results.RaceName,
Results.RaceCategoryName,
func.array_agg(Results.Place),
func.array_agg(Results.prior_mu)) \
.group_by(Results.RaceName, Results.RaceCategoryName)
print('Calculating Spearman correlation...')
correlations = []
for name, category, places, mus in results:
if len(places) >= min_racers:
correlations.append(spearmanr(places, mus).correlation)
print('Done calculating Spearman correlation!')
return correlations
def synchronize(self, engine, firstid):
# cache routing information, so we don't have to get it every time
route_cache = {}
with engine.begin() as conn:
h = self.t_hier.data
s = self.t_segment.data
sel = select([s.c.id, func.array_agg(h.c.parent).label('rels')])\
.where(s.c.rels.any(h.c.child)).group_by(s.c.id)
if firstid > 0:
sel = sel.where(s.c.id >= firstid)
for seg in conn.execute(sel):
self._update_segment_style(conn, seg, route_cache)
# and copy geometries
sel = self.data.update().where(self.data.c.id == s.c.id)\
.values(geom=ST_Simplify(s.c.geom, 1),
geom100=ST_Simplify(s.c.geom, 100))
if firstid > 0:
sel = sel.where(self.data.c.id >= firstid)
conn.execute(sel)
# now synchronize all segments where a hierarchical relation has changed
if firstid > 0:
segs = select([s.c.id, s.c.rels], distinct=True)\
.where(s.c.rels.any(h.c.child))\
.where(h.c.depth > 1)\
.where(s.c.id < firstid)\
.where(h.c.parent.in_(select([self.t_relchange.c.id])))\
.alias()
h2 = self.t_hier.data.alias()
sel = select([segs.c.id, func.array_agg(h2.c.parent).label('rels')])\
.where(segs.c.rels.any(h2.c.child)).group_by(segs.c.id)
for seg in conn.execute(sel):
self._update_segment_style(conn,
seg,
route_cache,
update=True)
def get_available_langs(document_id):
"""Return the available languages (e.g. ['en', 'fr']) for a single
document.
"""
return DBSession. \
query(
func.array_agg(
DocumentLocale.lang,
type_=postgresql.ARRAY(String))). \
filter(DocumentLocale.document_id == document_id). \
group_by(DocumentLocale.document_id). \
scalar()
def test_array_agg_array_literal_explicit_type(self):
from sqlalchemy.dialects.postgresql import array
expr = array([column("data", Integer), column("d2", Integer)])
agg_expr = func.array_agg(expr, type_=ARRAY(Integer))
is_(agg_expr.type._type_affinity, ARRAY)
is_(agg_expr.type.item_type._type_affinity, Integer)
self.assert_compile(
agg_expr, "array_agg(ARRAY[data, d2])", dialect="postgresql"
)
def get_resume_query(session):
user_data = func.array_agg(func.row(User.id, User.name)).label('user')
query = session.query(
Delivery.status,
Address.city,
user_data). \
join(User, Delivery.user_id == User.id). \
join(Address, Delivery.user_id == Address.user_id)
deliveries = query.group_by(Delivery.status, Address.city)
return deliveries
def get_available_langs(document_id):
"""Return the available languages (e.g. ['en', 'fr']) for a single
document.
"""
return DBSession. \
query(
func.array_agg(
DocumentLocale.lang,
type_=postgresql.ARRAY(String))). \
filter(DocumentLocale.document_id == document_id). \
group_by(DocumentLocale.document_id). \
scalar()
def test_aggregate_order_by_adapt(self):
m = MetaData()
table = Table('table1', m, Column('a', Integer), Column('b', Integer))
expr = func.array_agg(aggregate_order_by(table.c.a, table.c.b.desc()))
stmt = select([expr])
a1 = table.alias('foo')
stmt2 = sql_util.ClauseAdapter(a1).traverse(stmt)
self.assert_compile(
stmt2,
"SELECT array_agg(foo.a ORDER BY foo.b DESC) AS array_agg_1 FROM table1 AS foo"
)
def add_categories():
"""Update the Races table with the categories represented in the
Results table.
"""
# results of query are (arbitrary ResultID (so we can order), Race ID,
# category name, number of racers in that category)
cat_counts = (Results.query
.with_entities(
Results.race_id,
Results.RaceCategoryName,
func.count(Results.RaceCategoryName).label('count'))
.group_by(Results.race_id,
Results.RaceCategoryName)
.order_by(Results.RaceCategoryName)
.subquery('cat_counts'))
collected = (db.session
.query(cat_counts.c.race_id,
func.array_agg(cat_counts.c.RaceCategoryName).label('categories'),
func.array_agg(cat_counts.c.count).label('num_racers'))
.group_by(cat_counts.c.race_id))
Races.update([c._asdict() for c in collected])
def test_aggregate_order_by_adapt(self):
m = MetaData()
table = Table('table1', m, Column('a', Integer), Column('b', Integer))
expr = func.array_agg(aggregate_order_by(table.c.a, table.c.b.desc()))
stmt = select([expr])
a1 = table.alias('foo')
stmt2 = sql_util.ClauseAdapter(a1).traverse(stmt)
self.assert_compile(
stmt2,
"SELECT array_agg(foo.a ORDER BY foo.b DESC) AS array_agg_1 FROM table1 AS foo"
)
def get_consumer_roles(dbengine):
query = select([
service.c.id,
func.array_agg(role.c.id, type_=UUIDArray()).label('role_ids'),
])
query = query.where(service.c.is_consumer)
query = query.select_from(
join(service, role, role.c.service_id == service.c.id))
query = query.group_by(service.c.id)
cr = yield from dbengine.execute(query)
res = yield from cr.fetchall()
return res
def query_person_passports():
return (
DBSession.query(
Person.id.label('person_id'),
func.array_to_string(
func.array_agg(
case([(Passport.passport_type == 'citizen', Passport.num)])
),
', '
).label('citizen'),
func.array_to_string(
func.array_agg(
case([(Passport.passport_type == 'foreign', Passport.num)])
),
', '
).label('foreign'),
)
.join(Passport, Person.passports)
.group_by(Person.id)
)
def get_dataset_sources(self, dataset_id):
# recursively build the list of (dataset_ref, source_dataset_ref) pairs starting from dataset_id
# include (dataset_ref, NULL) [hence the left join]
sources = select(
[DATASET.c.id.label('dataset_ref'),
DATASET_SOURCE.c.source_dataset_ref,
DATASET_SOURCE.c.classifier]
).select_from(
DATASET.join(DATASET_SOURCE,
DATASET.c.id == DATASET_SOURCE.c.dataset_ref,
isouter=True)
).where(
DATASET.c.id == dataset_id
).cte(name="sources", recursive=True)
sources = sources.union_all(
select(
[sources.c.source_dataset_ref.label('dataset_ref'),
DATASET_SOURCE.c.source_dataset_ref,
DATASET_SOURCE.c.classifier]
).select_from(
sources.join(DATASET_SOURCE,
sources.c.source_dataset_ref == DATASET_SOURCE.c.dataset_ref,
isouter=True)
).where(sources.c.source_dataset_ref != None))
# turn the list of pairs into adjacency list (dataset_ref, [source_dataset_ref, ...])
# some source_dataset_ref's will be NULL
aggd = select(
[sources.c.dataset_ref,
func.array_agg(sources.c.source_dataset_ref).label('sources'),
func.array_agg(sources.c.classifier).label('classes')]
).group_by(sources.c.dataset_ref).alias('aggd')
# join the adjacency list with datasets table
query = select(
_DATASET_SELECT_FIELDS + (aggd.c.sources, aggd.c.classes)
).select_from(aggd.join(DATASET, DATASET.c.id == aggd.c.dataset_ref))
return self._connection.execute(query).fetchall()
def get_dataset_sources(self, dataset_id):
# recursively build the list of (dataset_ref, source_dataset_ref) pairs starting from dataset_id
# include (dataset_ref, NULL) [hence the left join]
sources = select(
[DATASET.c.id.label('dataset_ref'),
DATASET_SOURCE.c.source_dataset_ref,
DATASET_SOURCE.c.classifier]
).select_from(
DATASET.join(DATASET_SOURCE,
DATASET.c.id == DATASET_SOURCE.c.dataset_ref,
isouter=True)
).where(
DATASET.c.id == dataset_id
).cte(name="sources", recursive=True)
sources = sources.union_all(
select(
[sources.c.source_dataset_ref.label('dataset_ref'),
DATASET_SOURCE.c.source_dataset_ref,
DATASET_SOURCE.c.classifier]
).select_from(
sources.join(DATASET_SOURCE,
sources.c.source_dataset_ref == DATASET_SOURCE.c.dataset_ref,
isouter=True)
).where(sources.c.source_dataset_ref != None))
# turn the list of pairs into adjacency list (dataset_ref, [source_dataset_ref, ...])
# some source_dataset_ref's will be NULL
aggd = select(
[sources.c.dataset_ref,
func.array_agg(sources.c.source_dataset_ref).label('sources'),
func.array_agg(sources.c.classifier).label('classes')]
).group_by(sources.c.dataset_ref).alias('aggd')
# join the adjacency list with datasets table
query = select(
_DATASET_SELECT_FIELDS + (aggd.c.sources, aggd.c.classes)
).select_from(aggd.join(DATASET, DATASET.c.id == aggd.c.dataset_ref))
return self._connection.execute(query).fetchall()
def y(cls):
#arrind = func.unnest(cls.indices).label('arrind')
#x = arrind / cls.size
#y = func.array_agg(arrind - x*cls.size).label('y')
#return y
s = db.Session()
arrunnest = func.unnest(cls.indices)
xarr = (func.unnest(cls.indices) / cls.size).label('xarrind')
arrind = (arrunnest - xarr * cls.size).label('yarrind')
#n.arrind-(n.arrind/n.size)*n.size
y = s.query(arrind).select_from(cls).subquery('yarr')
yagg = s.query(func.array_agg(y.c.yarrind))
return yagg.as_scalar()
def test_aggregate_order_by_one(self):
m = MetaData()
table = Table('table1', m, Column('a', Integer), Column('b', Integer))
expr = func.array_agg(aggregate_order_by(table.c.a, table.c.b.desc()))
stmt = select([expr])
# note this tests that the object exports FROM objects
# correctly
self.assert_compile(
stmt,
"SELECT array_agg(table1.a ORDER BY table1.b DESC) "
"AS array_agg_1 FROM table1"
)
async def get_most_active_user(year: int = None, month: int = None, day=None):
query_params = {
"year": year,
"month": month,
"day": day
}
filter_spec = [{'field': k, 'op': '==', 'value': v} for k, v in query_params.items() if v]
query = db.query(
UserContributes.user,
func.count(UserContributes.user),
func.array_agg(UserContributes.year),
func.array_agg(UserContributes.month),
func.array_agg(UserContributes.day),
).group_by(
UserContributes.user,
).order_by(
func.count(UserContributes.user).desc())
filtered_query = apply_filters(query, filter_spec)
return filtered_query.first()
def add_outcomes(
feature_query,
start_time: datetime,
positive_event_lookahead: int = 1,
):
# The events table holds all the events, not just conversion ones
relevant_events = bq_session.query(
events.c['time'].cast(DATE).label('date'),
events.c['type'].label('outcome'),
events.c['user_id'].label('user_id')).filter(
events.c['type'].in_(list(LABELS.keys())),
cast(events.c['time'], DATE) > cast(start_time, DATE),
cast(events.c['time'], DATE) <= cast(
start_time + timedelta(days=positive_event_lookahead),
DATE)).subquery()
# TODO: Remove deduplication, once the event table doesn't contain any
relevant_events_deduplicated = bq_session.query(
relevant_events.c['date'],
relevant_events.c['user_id'],
# This case when provides logic for dealing with multiple outcomes during the same time period
# an example is user_id 195379 during the 4/2020 where the user renews, but then cancels and gets
# a refund (the current pipeline provides both labels)
case(
[
# If there is at least one churn event, we identify the user as churned
(literal(negative_label()).in_(
func.unnest(func.array_agg(
relevant_events.c['outcome']))), negative_label())
],
# In case of any number of any positive only events we consider the event as a renewal
else_=positive_labels()).label('outcome')).group_by(
relevant_events.c['date'].label('date'),
relevant_events.c['user_id'].label('user_id')).subquery()
feature_query_w_outcome = bq_session.query(
feature_query,
relevant_events_deduplicated.c['outcome'].label('outcome'),
relevant_events_deduplicated.c['date'].label('outcome_date')
).outerjoin(
relevant_events_deduplicated,
and_(
feature_query.c['user_id'] ==
relevant_events_deduplicated.c['user_id'],
feature_query.c['date'] >= func.date_sub(
relevant_events_deduplicated.c['date'],
text(f'interval {positive_event_lookahead} day')),
feature_query.c['date'] <= relevant_events_deduplicated.c['date'])
).subquery('feature_query_w_outcome')
return feature_query_w_outcome
def search_datasets(self, expressions, select_fields=None, with_source_ids=False):
"""
:type with_source_ids: bool
:type select_fields: tuple[datacube.index.postgres._fields.PgField]
:type expressions: tuple[datacube.index.postgres._fields.PgExpression]
:rtype: dict
"""
if select_fields:
select_columns = tuple(
f.alchemy_expression.label(f.name)
for f in select_fields
)
else:
select_columns = _DATASET_SELECT_FIELDS
if with_source_ids:
# Include the IDs of source datasets
select_columns += (
select(
(func.array_agg(DATASET_SOURCE.c.source_dataset_ref),)
).select_from(
DATASET_SOURCE
).where(
DATASET_SOURCE.c.dataset_ref == DATASET.c.id
).group_by(
DATASET_SOURCE.c.dataset_ref
).label('dataset_refs'),
)
def raw_expr(expression):
if isinstance(expression, OrExpression):
return or_(raw_expr(expr) for expr in expression.exprs)
return expression.alchemy_expression
raw_expressions = [raw_expr(expression) for expression in expressions]
from_tables = DATASET.join(DATASET_TYPE).join(METADATA_TYPE)
select_query = (
select(
select_columns
).select_from(
from_tables
).where(
and_(DATASET.c.archived == None, *raw_expressions)
)
)
results = self._connection.execute(select_query)
for result in results:
yield result
def synchronize(self, engine, firstid):
# cache routing information, so we don't have to get it every time
route_cache = {}
with engine.begin() as conn:
h = self.t_hier.data
s = self.t_segment.data
sel = select([s.c.id, func.array_agg(h.c.parent).label('rels')])\
.where(s.c.rels.any(h.c.child)).group_by(s.c.id)
if firstid > 0:
sel = sel.where(s.c.id >= firstid)
for seg in conn.execute(sel):
self._update_segment_style(conn, seg, route_cache)
# and copy geometries
sel = self.data.update().where(self.data.c.id == s.c.id)\
.values(geom=ST_Simplify(s.c.geom, 1),
geom100=ST_Simplify(s.c.geom, 100))
if firstid > 0:
sel = sel.where(self.data.c.id >= firstid)
conn.execute(sel)
# now synchronize all segments where a hierarchical relation has changed
if firstid > 0:
segs = select([s.c.id, s.c.rels], distinct=True)\
.where(s.c.rels.any(h.c.child))\
.where(h.c.depth > 1)\
.where(s.c.id < firstid)\
.where(h.c.parent.in_(select([self.t_relchange.c.id])))\
.alias()
h2 = self.t_hier.data.alias()
sel = select([segs.c.id, func.array_agg(h2.c.parent).label('rels')])\
.where(segs.c.rels.any(h2.c.child)).group_by(segs.c.id)
for seg in conn.execute(sel):
self._update_segment_style(conn, seg, route_cache, update=True)
def read_rolepermissions():
q_session = Session()
query = q_session.query(
Roles.name,
Roles.id,
func.array_agg(RolesPermissions.permissions_id),
).join(
RolesPermissions, Roles.id == RolesPermissions.role_id
).group_by(
Roles.id
).order_by(
asc(Roles.name)
).all()
return query
def test_array_agg_array_literal_implicit_type(self):
from sqlalchemy.dialects.postgresql import array, ARRAY as PG_ARRAY
expr = array([column('data', Integer), column('d2', Integer)])
assert isinstance(expr.type, PG_ARRAY)
agg_expr = func.array_agg(expr)
assert isinstance(agg_expr.type, PG_ARRAY)
is_(agg_expr.type._type_affinity, ARRAY)
is_(agg_expr.type.item_type._type_affinity, Integer)
self.assert_compile(
agg_expr,
"array_agg(ARRAY[data, d2])",
dialect="postgresql"
)
def user_roles():
if session["logged_in"] and ("Read users" in session or "Edit users" in session):
roles = read_roles()
q_session = Session()
query = (
q_session.query(UserRoles.email, func.array_agg(UserRoles.user_role_id))
.group_by(UserRoles.email)
.order_by(asc(UserRoles.email))
.all()
)
if query:
return render_template("manageusers.html", roles=roles, usersandroles=query)
else:
errormsg = "No roles found. Please add roles and assign them to users."
return render_template("manageusers.html", error=errormsg)
else:
session["no-access"] = True
session["tried"] = "Users"
return redirect(url_for("login"))
def get_tags(db, entity_model, tag_model, entity_ids):
"""Get tags associated with entities.
Args:
db (Session object): Session object.
entity_model (mbdata.models): Model of the entity.
tag_model (mbdata.models): Tag of the model.
entity_ids (list): IDs of the entity whose tags are to be fetched
Returns:
List of tuples containing the entity_ids and the list of associated tags.
"""
tags = db.query(entity_model.id, func.array_agg(Tag.name)).\
join(tag_model).\
join(Tag).\
filter(entity_model.id.in_(entity_ids)).\
group_by(entity_model.id).\
all()
return tags
def start_requests(self):
summary_utc = datetime.utcnow() #- timedelta(days=1)
db_engine = create_engine(self.settings.get('SQLALCHEMY_DATABASE_URI'))
db_session = sessionmaker(bind=db_engine)()
db_query = db_session.query(LiveTVSite.id.label('site_id'), LiveTVRoom.id.label('room_id'),
LiveTVRoom.url.label('room_url'),
LiveTVRoomPresent.crawl_date_format.label('summary_date'),
func.array_agg(LiveTVRoomPresent.online).label('online_list')) \
.join(LiveTVRoom, LiveTVRoomPresent) \
.filter(LiveTVSite.code == 'bilibili') \
.filter(LiveTVRoomPresent.crawl_date_format == summary_utc.strftime(DAILY_DATE_FORMAT)) \
.group_by(LiveTVSite.id, LiveTVRoom.id, LiveTVRoom.url, LiveTVRoomPresent.crawl_date_format)
for group_row in db_query:
meta_info = {
'site_id': group_row.site_id,
'room_id': group_row.room_id,
'summary_date': group_row.summary_date,
'online': numpy.median(group_row.online_list)
}
yield Request(group_row.room_url, callback=self.parse, meta=meta_info)
db_session.close()
