def get_aggregates(self, date, data):
aggregates = [
Count('permit_type_%s' % p, prop=True) for p in PERMIT_TYPES
]
aggregates.append(Count())
return aggregates
def aggregates(self):
return [
Count(),
Count('Arrest'),
Count(lambda c: c['Primary Type'] == 'THEFT',
'theft', prop=True),
]
def get_aggregates(self, date, delta):
aggregates = [
Count(),
Aggregate('inspected', 'max', fname=False),
Aggregate('complied', 'max', fname=False),
Count('hazard_int', prop=True),
Count('hazard_ext', prop=True),
Count('hazard', prop=True),
Count('hazard_both', prop=True),
Count('inspected'),
Count('complied', prop=True),
Aggregate('inspection_to_compliance', ['mean', 'min', 'max']),
Aggregate(lambda i: (date - i.init_date) / day,
['mean', 'min', 'max'],
name='from_inspection'),
Aggregate(lambda i: (date - i.comply_date) / day,
['mean', 'min', 'max'],
name='from_compliance'),
]
aggregates.extend([
Count(lambda i, c=c: i['closure'] == c,
name='closure_%s' % c,
prop=True) for c in CLOSURE_CODES
])
return aggregates
def get_aggregates(self, date, delta):
kid_count = Aggregate('kid_id',
'nunique',
name='kid_count',
fname=False)
aggregates = [
Count(),
Aggregate('bll', ['mean', 'median', 'max', 'min', 'std']),
Aggregate(lambda t: t.bll.where(t.increase),
['mean', 'median', 'max', 'min', 'std'], 'increase_bll'),
Count(lambda t: t.bll <= 2, 'bll2', prop=True),
# prevalences
Fraction(Count(['first_bll6', 'first_bll10']),
kid_count,
include_numerator=True,
include_denominator=True),
]
# incidences
if delta != 'all':
start_date = date - data.parse_delta(delta)
no_bll6_count = Aggregate(lambda k: k.kid_id.where(
(k.first_bll6_sample_date >= start_date).fillna(True)),
'nunique',
name='no_bll6_count',
fname=False)
no_bll10_count = Aggregate(lambda k: k.kid_id.where(
(k.first_bll10_sample_date >= start_date).fillna(True)),
'nunique',
name='no_bll10_count',
fname=False)
aggregates.extend([
no_bll6_count, no_bll10_count,
Count('first_bll6') / no_bll6_count,
Count('first_bll10') / no_bll10_count
])
if delta == 'all':
aggregates.extend([
Aggregate(days('date', date), ['min', 'max'],
'days_since_test'),
Aggregate([
lambda t:
(date - t.date.where(t.bll >= 6)) / day, lambda t:
(date - t.date.where(t.bll >= 10)) / day
], ['min', 'max'], ['days_since_bll6', 'days_since_bll10'])
])
return aggregates
def get_aggregates(self, date, data):
aggregates = [
Count(),
Count(KEYWORDS, prop=True),
Count(STATUS[1], prop=True),
Count([
lambda v, k=k, s=s: v[k] & v[s]
for k, s in product(KEYWORDS, STATUS[1])
],
prop=True,
name=['%s_%s' % p for p in product(KEYWORDS, STATUS[1])])
]
return aggregates
def get_aggregates(self, date, delta):
prenatal = self.inputs[0].get_result()
aggregates = [
Count(),
Aggregate(days('visit_d', 'date_of_birth'), ['min', 'max'],
'visit'),
Aggregate(list(select_regexes(prenatal, ['service_.*'])),
'sum',
fname=False),
Aggregate('preg_nbr_n', 'max', 'previous_pregnancies',
fname=False),
Aggregate('lv_brth_n', 'max', 'previous_births', fname=False),
Aggregate('othr_trm_n',
'max',
'previous_terminations',
fname=False),
Aggregate(lambda p: p.smk3_mth_f == 'Y',
'any',
'smoked_3mo',
fname=False),
Aggregate('cig3_day_n', 'max', 'cigarettes_per_day', fname=False),
Aggregate(lambda p: p.drk3_mth_f == 'Y',
'any',
'drank_3mo',
fname=False),
Aggregate('dr_dy_wk_n', 'max', 'days_drank_per_week', fname=False),
Aggregate('drnk_day_n', 'max', 'drinks_per_day', fname=False),
]
return aggregates
def aggregates(self):
return [
Count(),
Aggregate('count', 'mean', 'assessents'),
Aggregate(lambda a: a.land_value / 100000, 'mean', name='land_value'),
Aggregate(['min_age', 'max_age'], ['min', 'mean', 'max']),
# residential total value and average value
Fraction(
Aggregate(lambda a: a.total_value.where(a.residential > 0) / 100000,
'sum', 'residential_total_value', fname=False),
Aggregate(lambda a: a.units.where(a.residential > 0),
'sum', name='residential_units', fname=False),
include_numerator=True, include_denominator=True
),
# non-residential total and average value
Fraction(
Aggregate(lambda a: a.total_value.where(a.residential == 0) / 100000,
'sum', 'non_residential_total_value', fname=False),
Aggregate(lambda a: a.units.where(a.residential == 0),
'sum', name='non_residential_units', fname=False),
include_numerator=True, include_denominator=True
),
Aggregate('apartments', 'mean'),
Aggregate('units', 'mean'),
Aggregate(lambda a: a.rooms / a.units, 'mean', name='rooms_per_unit'),
Aggregate(lambda a: a.beds / a.units, 'mean', name='beds_per_unit'),
Aggregate(lambda a: a.baths / a.units, 'mean', name='baths_per_unit'),
Proportion(lambda a: a.owner_occupied > 0, name='owner_occupied'),
Proportion([lambda a, c=c: a[c] > 0 for c in CLASSES],
name=CLASSES)
]
def aggregates(self):
return [
Count(),
Aggregate('area', 'sum'),
Aggregate(lambda b: b.area * b.stories, 'mean', 'volume'),
Aggregate('years_built', [
lambda y: np.nanmedian(np.concatenate(y.values)),
lambda y: np.nanmean(np.concatenate(y.values)),
lambda y: np.nanmin(np.concatenate(y.values)),
lambda y: np.nanmax(np.concatenate(y.values)),
],
fname=['median', 'mean', 'min', 'max']),
Aggregate('address_count', 'sum'),
# average proportion of sound building condition
Proportion(['%s_prop' % c for c in CONDITIONS],
'condition_not_null',
name=CONDITIONS),
Aggregate([lambda p: p['%s_prop' % c] > 0 for c in CONDITIONS],
'any',
name=CONDITIONS),
Aggregate('stories', 'mean'),
Aggregate('units', 'sum'),
Proportion('pre1978_prop',
lambda i: i.pre1978_prop.notnull(),
denom_name='pre1978_not_null'),
]
def get_aggregates(self, date, delta):
aggregates = [
Count(),
Aggregate(days('visit_d', 'date_of_birth'), ['min', 'max'],
'visit'),
Aggregate('serv_typ_c', lambda s: set(s), 'service', fname=False),
Aggregate('preg_nbr_n', 'max', 'previous_pregnancies',
fname=False),
Aggregate('lv_brth_n', 'max', 'previous_births', fname=False),
Aggregate('othr_trm_n',
'max',
'previous_terminations',
fname=False),
Aggregate(lambda p: p.smk3_mth_f == 'Y',
'any',
'smoked_3mo',
fname=False),
Aggregate('cig3_day_n', 'max', 'cigarettes_per_day', fname=False),
Aggregate(lambda p: p.drk3_mth_f == 'Y',
'any',
'drank_3mo',
fname=False),
Aggregate('dr_dy_wk_n', 'max', 'days_drank_per_week', fname=False),
Aggregate('drnk_day_n', 'max', 'drinks_per_day', fname=False),
Aggregate('clinicid_i', lambda c: set(c), 'clinic', fname=False)
]
return aggregates
def get_aggregates(self, date, delta):
kid_count = Aggregate('kid_id', 'nunique',
name='kid_count', fname=False)
aggregates = [
Count(),
Aggregate('bll', ['mean', 'median', 'max', 'min', 'std']),
Count(lambda t: t.bll <= 2, 'bll2', prop=True),
Fraction(Count(['first_bll6', 'first_bll10']), kid_count,
include_numerator=True, include_denominator=True),
]
if delta == 'all':
aggregates.extend([
Aggregate(days('date',date), ['min','max'],
'days_since_test'),
Aggregate([
lambda t: (date - t.date.where(t.bll >= 6))/day,
lambda t: (date - t.date.where(t.bll >= 10))/day],
['min','max'], ['days_since_bll6', 'days_since_bll10'])
])
return aggregates
def get_aggregates(self, date, index, delta):
if index == 'kid':
return [
Aggregate(
['test_address_count', 'address_count', 'test_count'],
'max',
fname=False),
Aggregate(['max_bll'], 'max', fname=False),
# Comment out this and all other wic aggregates because they can't be lagged
# and they're not useful for predicting poisoning
#Aggregate(lambda k: k.last_wic_date == k.address_wic_max_date,
# 'any', 'last_wic_address', fname=False),
#Aggregate(['address_wic_mother', 'address_wic_infant'], 'any', fname=False),
#Aggregate([days('address_wic_max_date', date),
# days('address_wic_min_date', date),
# days('last_wic_date', date),
# days('first_wic_date', date)],
# ['max'], ['address_wic_min_date', 'address_wic_max_date',
# 'last_wic_date', 'first_wic_date'], fname=False)
]
sample_2y = lambda k: ((k.last_sample_date - k.date_of_birth) / day >
365 * 2) | (k.max_bll >= 6)
counts = Count([np.float32(1), sample_2y], ['kid', 'kid_sample_2y'])
aggregates = [
counts,
Aggregate(['test_address_count', 'test_count', 'address_count'],
['median', 'mean', 'min', 'max']),
Count([
lambda k: k.address_test_min_date.notnull(),
lambda k: k.first_sample_date.notnull()
],
prop=True,
name=['tested_here', 'tested_ever']),
#Count(lambda k: k.first_wic_date.notnull(), prop=True, name='wic'),
#Count([lambda k: k.address_wic_min_date.notnull() & k.address_test_min_date.notnull(),
# lambda k: k.address_wic_min_date.notnull() & k.first_sample_date.notnull()],
# name=['wic_tested_here', 'wic_tested_ever'],
# prop=lambda k: k.first_wic_date.notnull(), prop_name='wic'),
Aggregate(
[
days('address_min_date', 'address_max_date'),
#days('address_wic_min_date', 'address_wic_max_date'),
days('address_test_min_date', 'address_test_max_date')
],
['mean'],
[
'address_total_time', #'address_wic_time',
'address_test_time'
]),
# the first of these are kid level, not address-kid level
# that means kids get double counted when aggregated to above the address level
# if they lived in multiple addresses on that e.g. census tract. oh well.
Aggregate([
'max_bll', 'avg_bll', 'cumulative_bll', 'avg_cumulative_bll',
'mean_bll', 'address_max_bll', 'address_mean_bll'
], ['mean', 'median', 'min', 'max']),
# ebll past, present, future, ever count the number of kids who
# moved into this address in the period defined by date and delta
# and who were poisoned before, during, after or ever relative to their time living there
Fraction(Count([
lambda k: k.first_bll6_sample_date.notnull(),
lambda k: k.first_bll10_sample_date.notnull()
], ['bll6_ever', 'bll10_ever']),
counts,
include_numerator=True),
Fraction(Count([
lambda k: k.first_bll6_sample_date > k.address_max_date,
lambda k: k.first_bll10_sample_date > k.address_max_date
], ['bll6_future', 'bll10_future']),
counts,
include_numerator=True),
Fraction(Count([
lambda k: k.first_bll6_sample_date < k.address_min_date,
lambda k: k.first_bll10_sample_date < k.address_min_date
], ['bll6_past', 'bll10_past']),
counts,
include_numerator=True),
Fraction(Count([
lambda k: k.first_bll6_sample_date.between(
k.address_min_date, k.address_max_date),
lambda k: k.first_bll10_sample_date.between(
k.address_min_date, k.address_max_date)
], ['bll6_present', 'bll10_present']),
counts,
include_numerator=True),
Aggregate('last_name', 'nunique', fname='count', astype=str)
# TODO: min_last_sample_age cutoffs
]
if delta == 'all':
aggregates.extend([
#Aggregate(days('address_wic_min_date', date), ['min', 'max'], 'days_since_wic'),
Aggregate(days('date_of_birth', date), ['min', 'max', 'mean'],
'date_of_birth'),
])
return aggregates
def get_aggregates(self, date, delta):
return [
Count(),
Count(['event_code_' + e for e in event_codes], prop=True),
Count(['event_res_code_' + e for e in event_res_codes], prop=True)
]
def get_aggregates(self, date, index, delta):
if index == 'kid':
return [
Aggregate(['address_count', 'test_count'], 'max', fname=False),
Aggregate(['max_bll'], 'max', fname=False),
Aggregate(lambda k: k.last_wic_date == k.address_wic_max_date,
'any',
'last_wic_address',
fname=False),
Aggregate(['address_wic_mother', 'address_wic_infant'],
'any',
fname=False),
Aggregate([
days('address_wic_max_date', date),
days('address_wic_min_date', date),
days('last_wic_date', date),
days('first_wic_date', date)
], ['max'], [
'address_wic_min_date', 'address_wic_max_date',
'last_wic_date', 'first_wic_date'
],
fname=False)
]
sample_2y = lambda k: ((k.last_sample_date - k.date_of_birth) / day >
365 * 2) | (k.max_bll >= 6)
counts = Count([np.float32(1), sample_2y], ['kid', 'kid_sample_2y'])
aggregates = [
counts,
Aggregate(['address_count', 'test_count'],
['median', 'mean', 'min', 'max']),
Count([
lambda k: k.address_test_min_date.notnull(),
lambda k: k.first_sample_date.notnull(),
lambda k: k.first_wic_date.notnull()
],
prop=True,
name=['tested_here', 'tested_ever', 'wic']),
Count([
lambda k: k.address_wic_min_date.notnull(
) & k.address_test_min_date.notnull(), lambda k: k.
address_wic_min_date.notnull() & k.first_sample_date.notnull()
],
name=['wic_tested_here', 'wic_tested_ever'],
parent=lambda k: k.first_wic_date.notnull()),
Aggregate([
days('address_min_date', 'address_max_date'),
days('address_wic_min_date', 'address_wic_max_date'),
days('address_test_min_date', 'address_test_max_date')
], ['mean'], [
'address_total_time', 'address_wic_time', 'address_test_time'
]),
Aggregate(
['max_bll', 'mean_bll', 'address_max_bll', 'address_mean_bll'],
['mean', 'median', 'min', 'max']),
Fraction(Count([
lambda k: k.first_bll6_sample_date.notnull(),
lambda k: k.first_bll10_sample_date.notnull()
], ['bll6_ever', 'bll10_ever']),
counts,
include_numerator=True),
Fraction(Count([
lambda k: k.first_bll6_sample_date > k.address_max_date,
lambda k: k.first_bll10_sample_date > k.address_max_date
], ['bll6_future', 'bll10_future']),
counts,
include_numerator=True),
Fraction(Count([
lambda k: k.first_bll6_sample_date < k.address_min_date,
lambda k: k.first_bll10_sample_date < k.address_min_date
], ['bll6_past', 'bll10_past']),
counts,
include_numerator=True),
Fraction(Count([
lambda k: k.first_bll6_sample_date.between(
k.address_min_date, k.address_max_date),
lambda k: k.first_bll10_sample_date.between(
k.address_min_date, k.address_max_date)
], ['bll6_present', 'bll10_present']),
counts,
include_numerator=True),
Aggregate('last_name', 'nunique', fname='count', astype=str)
# TODO: min_last_sample_age cutoffs
]
if delta == 'all':
aggregates.extend([
Aggregate(days('address_wic_min_date', date), ['min', 'max'],
'days_since_wic'),
Aggregate(days('date_of_birth', date), ['min', 'max', 'mean'],
'date_of_birth'),
])
return aggregates
def get_aggregates(self, date, delta):
return [
Count(),
Count('Arrest'),
Count(lambda c: c['Primary Type'] == 'THEFT', 'theft', prop=True)
]
aggregates = [
Aggregate('area', 'mean', fname=False),
Aggregate('year_built', lambda l: list(l), name='years_built',
fname=False),
Aggregate(lambda b: (b.t_add1 - b.f_add1) / 2 + 1,
'max',
name='address_count',
fname=False),
Aggregate('bldg_condi_not_null',
'any',
name='condition_not_null',
fname=False),
Aggregate('stories', 'mean', fname=False),
Aggregate('units', 'mean', fname=False),
Fraction(Count(lambda b: b.year_built < 1978),
Count(lambda b: b.year_built.notnull()),
name='pre1978_prop'),
Fraction(cond,
Count(lambda b: b.bldg_condi.notnull()),
name='{numerator}_prop')
]
engine = util.create_engine()
# read tables from db
building_components = pd.read_sql(
'select * from buildings.building_components', engine)
buildings = pd.read_sql(
"""
select ogc_fid id,