# Identifying the number of categories within each control variable for the households, gq's, and persons
hhld_dimensions = project.hhldDims
gq_dimensions = project.gqDims
print '------------------------------------------------------------------'
print 'Preparing Data for the Synthesizer Run'
print '------------------------------------------------------------------'
print 'Dimensions and Control Variables in %.4f' %(time.clock()-ti)
ti = time.clock()
update_string = adjusting_sample_joint_distribution.create_update_string(db, hhld_control_variables, hhld_dimensions)
adjusting_sample_joint_distribution.add_unique_id(db, 'hhld_sample', 'hhld', update_string)
update_string = adjusting_sample_joint_distribution.create_update_string(db, gq_control_variables, gq_dimensions)
adjusting_sample_joint_distribution.add_unique_id(db, 'gq_sample', 'gq', update_string)
adjusting_sample_joint_distribution.add_unique_id(db, 'person_sample', 'person', '1')
print 'Uniqueid\'s in %.4fs' %(time.clock()-ti)
ti = time.clock()
# Populating the Master Matrix
populated_matrix = psuedo_sparse_matrix_noper.populate_master_matrix(db, 99999, hhld_units, gq_units, hhld_dimensions,
gq_dimensions)
print 'Populated in %.4fs' %(time.clock()-ti)
ti = time.clock()
# Sparse representation of the Master Matrix
def prepare_data(db, project, state=None):
if state == None:
stateFilterStr = ""
else:
stateFilterStr = " where state = %s" %(state)
dbc = db.cursor()
scenarioDatabase = '%s%s%s' %(project.name, 'scenario', project.scenario)
projectDatabase = project.name
try:
dbc.execute('drop table %s.hhld_sample' %(scenarioDatabase))
dbc.execute('drop table %s.gq_sample' %(scenarioDatabase))
dbc.execute('drop table %s.person_sample' %(scenarioDatabase))
dbc.execute('drop table %s.hhld_marginals' %(scenarioDatabase))
dbc.execute('drop table %s.gq_marginals' %(scenarioDatabase))
dbc.execute('drop table %s.person_marginals' %(scenarioDatabase))
if project.sampleUserProv.defSource == 'ACS 2005-2007':
dbc.execute('drop table %s.serialcorr' %(scenarioDatabase))
except:
pass
dbc.execute('create table %s.hhld_sample select * from %s.hhld_sample %s'
%(scenarioDatabase, projectDatabase, stateFilterStr))
dbc.execute('alter table %s.hhld_sample add index(serialno)' %(scenarioDatabase))
dbc.execute('create table %s.gq_sample select * from %s.gq_sample %s'
%(scenarioDatabase, projectDatabase, stateFilterStr))
dbc.execute('alter table %s.gq_sample add index(serialno)' %(scenarioDatabase))
dbc.execute('create table %s.person_sample select * from %s.person_sample %s'
%(scenarioDatabase, projectDatabase, stateFilterStr))
dbc.execute('alter table %s.person_sample add index(serialno, pnum)' %(scenarioDatabase))
if project.selVariableDicts.hhldMargsModify:
dbc.execute('create table %s.hhld_marginals select * from %s.hhld_marginals_modpgq'
%(scenarioDatabase, projectDatabase))
else:
dbc.execute('create table %s.hhld_marginals select * from %s.hhld_marginals'
%(scenarioDatabase, projectDatabase))
dbc.execute('create table %s.gq_marginals select * from %s.gq_marginals'
%(scenarioDatabase, projectDatabase))
dbc.execute('create table %s.person_marginals select * from %s.person_marginals'
%(scenarioDatabase, projectDatabase))
if project.sampleUserProv.defSource == 'ACS 2005-2007':
dbc.execute('create table %s.serialcorr select * from %s.serialcorr'
%(scenarioDatabase, projectDatabase))
# Processes/ methods to be called at the beginning of the pop_synthesis process
# Identifying the number of housing units to build the Master Matrix
dbc.execute('select * from hhld_sample')
hhld_units = dbc.rowcount
dbc.execute('select * from gq_sample')
gq_units = dbc.rowcount
ti = time.clock()
# Identifying the control variables for the households, gq's, and persons
hhld_control_variables = project.hhldVars
gq_control_variables = project.gqVars
person_control_variables = project.personVars
# Identifying the number of categories within each control variable for the households, gq's, and persons
hhld_dimensions = project.hhldDims
gq_dimensions = project.gqDims
person_dimensions = project.personDims
print '------------------------------------------------------------------'
print 'Preparing Data for the Synthesizer Run'
print '------------------------------------------------------------------'
print 'Dimensions and Control Variables in %.4f' %(time.clock()-ti)
ti = time.clock()
update_string = adjusting_sample_joint_distribution.create_update_string(db, hhld_control_variables, hhld_dimensions)
adjusting_sample_joint_distribution.add_unique_id(db, 'hhld_sample', 'hhld', update_string)
update_string = adjusting_sample_joint_distribution.create_update_string(db, gq_control_variables, gq_dimensions)
adjusting_sample_joint_distribution.add_unique_id(db, 'gq_sample', 'gq', update_string)
update_string = adjusting_sample_joint_distribution.create_update_string(db, person_control_variables, person_dimensions)
adjusting_sample_joint_distribution.add_unique_id(db, 'person_sample', 'person', update_string)
print 'Uniqueid\'s in %.4fs' %(time.clock()-ti)
ti = time.clock()
"""
# Populating the Master Matrix
populated_matrix = psuedo_sparse_matrix_new.populate_master_matrix(db, 0,
hhld_units, gq_units,
hhld_control_variables, gq_control_variables, person_control_variables,
hhld_dimensions, gq_dimensions, person_dimensions)
print 'Populated in %.4fs' %(time.clock()-ti)
ti = time.clock()
# Sparse representation of the Master Matrix
ps_sp_matrix = psuedo_sparse_matrix.psuedo_sparse_matrix(db, populated_matrix, 0)
print 'Psuedo Sparse Matrix in %.4fs' %(time.clock()-ti)
ti = time.clock()
#______________________________________________________________________
#Creating Index Matrix
index_matrix = psuedo_sparse_matrix.generate_index_matrix(db, 0)
print 'Index Matrix in %.4fs' %(time.clock()-ti)
ti = time.clock()
dbc.close()
"""
# Populating the Master Matrix for Household Types
populated_matrix = psuedo_sparse_matrix.populate_master_matrix(db, 99999,
hhld_units, gq_units,
hhld_dimensions, gq_dimensions, person_dimensions)
print 'Populated in %.4fs' %(time.clock()-ti)
ti = time.clock()
# Sparse representation of the Master Matrix for Household Types
ps_sp_matrix = psuedo_sparse_matrix.psuedo_sparse_matrix(db, populated_matrix, 99999, project)
print 'Psuedo Sparse Matrix in %.4fs' %(time.clock()-ti)
ti = time.clock()
#______________________________________________________________________
#Creating Index Matrix of the Master Matrix for Household Types
index_matrix = psuedo_sparse_matrix.generate_index_matrix(db, 99999)
print 'Index Matrix in %.4fs' %(time.clock()-ti)
ti = time.clock()
dbc.close()
#______________________________________________________________________
# creating synthetic_population tables in MySQL
drawing_households.create_synthetic_attribute_tables(db)
# creating performance_statistics table in MySQL
drawing_households.create_performance_table(db)
# Total PUMS Sample x composite_type adjustment for hhld
adjusting_sample_joint_distribution.create_joint_dist(db, 'hhld', hhld_control_variables, hhld_dimensions, 0, 0, 0)
# Total PUMS Sample x composite_type adjustment for gq
adjusting_sample_joint_distribution.create_joint_dist(db, 'gq', gq_control_variables, gq_dimensions, 0, 0, 0)
# Total PUMS Sample x composite_type adjustment for person
adjusting_sample_joint_distribution.create_joint_dist(db, 'person', person_control_variables, person_dimensions, 0, 0, 0)
hhld_units = dbc.rowcount
ti = time.clock()
# Identifying the control variables for the households
hhld_control_variables = project.hhldVars
# Identifying the number of categories within each control variable for the households
hhld_dimensions = project.hhldDims
print '------------------------------------------------------------------'
print 'Preparing Data for the Synthesizer Run'
print '------------------------------------------------------------------'
print 'Dimensions and Control Variables in %.4f' % (time.clock() - ti)
ti = time.clock()
update_string = adjusting_sample_joint_distribution.create_update_string(
db, hhld_control_variables, hhld_dimensions)
adjusting_sample_joint_distribution.add_unique_id(db, 'hhld_sample',
'hhld', update_string)
adjusting_sample_joint_distribution.add_unique_id(db, 'person_sample',
'person', '1')
print 'Uniqueid\'s in %.4fs' % (time.clock() - ti)
ti = time.clock()
# Populating the Master Matrix
populated_matrix = psuedo_sparse_matrix_nogqs_noper.populate_master_matrix(
db, 99999, hhld_units, hhld_dimensions)
print 'Populated in %.4fs' % (time.clock() - ti)
ti = time.clock()
# Sparse representation of the Master Matrix
def prepare_data(db, project, state=None):
if state == None:
stateFilterStr = ""
else:
stateFilterStr = " where state = %s" % (state)
dbc = db.cursor()
scenarioDatabase = '%s%s%s' % (project.name, 'scenario', project.scenario)
projectDatabase = project.name
try:
dbc.execute('drop table %s.hhld_sample' % (scenarioDatabase))
dbc.execute('drop table %s.gq_sample' % (scenarioDatabase))
dbc.execute('drop table %s.person_sample' % (scenarioDatabase))
dbc.execute('drop table %s.hhld_marginals' % (scenarioDatabase))
dbc.execute('drop table %s.gq_marginals' % (scenarioDatabase))
dbc.execute('drop table %s.person_marginals' % (scenarioDatabase))
if project.sampleUserProv.defSource == 'ACS 2005-2007':
dbc.execute('drop table %s.serialcorr' % (scenarioDatabase))
except:
pass
dbc.execute('create table %s.hhld_sample select * from %s.hhld_sample %s' %
(scenarioDatabase, projectDatabase, stateFilterStr))
dbc.execute('alter table %s.hhld_sample add index(serialno)' %
(scenarioDatabase))
dbc.execute('create table %s.gq_sample select * from %s.gq_sample %s' %
(scenarioDatabase, projectDatabase, stateFilterStr))
dbc.execute('alter table %s.gq_sample add index(serialno)' %
(scenarioDatabase))
dbc.execute(
'create table %s.person_sample select * from %s.person_sample %s' %
(scenarioDatabase, projectDatabase, stateFilterStr))
dbc.execute('alter table %s.person_sample add index(serialno, pnum)' %
(scenarioDatabase))
if project.selVariableDicts.hhldMargsModify:
dbc.execute(
'create table %s.hhld_marginals select * from %s.hhld_marginals_modpgq'
% (scenarioDatabase, projectDatabase))
else:
dbc.execute(
'create table %s.hhld_marginals select * from %s.hhld_marginals' %
(scenarioDatabase, projectDatabase))
dbc.execute('create table %s.gq_marginals select * from %s.gq_marginals' %
(scenarioDatabase, projectDatabase))
dbc.execute(
'create table %s.person_marginals select * from %s.person_marginals' %
(scenarioDatabase, projectDatabase))
if project.sampleUserProv.defSource == 'ACS 2005-2007':
dbc.execute('create table %s.serialcorr select * from %s.serialcorr' %
(scenarioDatabase, projectDatabase))
# Processes/ methods to be called at the beginning of the pop_synthesis process
# Identifying the number of housing units to build the Master Matrix
dbc.execute('select * from hhld_sample')
hhld_units = dbc.rowcount
dbc.execute('select * from gq_sample')
gq_units = dbc.rowcount
ti = time.clock()
# Identifying the control variables for the households, gq's, and persons
hhld_control_variables = project.hhldVars
gq_control_variables = project.gqVars
person_control_variables = project.personVars
# Identifying the number of categories within each control variable for the households, gq's, and persons
hhld_dimensions = project.hhldDims
gq_dimensions = project.gqDims
person_dimensions = project.personDims
print '------------------------------------------------------------------'
print 'Preparing Data for the Synthesizer Run'
print '------------------------------------------------------------------'
print 'Dimensions and Control Variables in %.4f' % (time.clock() - ti)
ti = time.clock()
update_string = adjusting_sample_joint_distribution.create_update_string(
db, hhld_control_variables, hhld_dimensions)
adjusting_sample_joint_distribution.add_unique_id(db, 'hhld_sample',
'hhld', update_string)
update_string = adjusting_sample_joint_distribution.create_update_string(
db, gq_control_variables, gq_dimensions)
adjusting_sample_joint_distribution.add_unique_id(db, 'gq_sample', 'gq',
update_string)
update_string = adjusting_sample_joint_distribution.create_update_string(
db, person_control_variables, person_dimensions)
adjusting_sample_joint_distribution.add_unique_id(db, 'person_sample',
'person', update_string)
print 'Uniqueid\'s in %.4fs' % (time.clock() - ti)
ti = time.clock()
"""
# Populating the Master Matrix
populated_matrix = psuedo_sparse_matrix_new.populate_master_matrix(db, 0,
hhld_units, gq_units,
hhld_control_variables, gq_control_variables, person_control_variables,
hhld_dimensions, gq_dimensions, person_dimensions)
print 'Populated in %.4fs' %(time.clock()-ti)
ti = time.clock()
# Sparse representation of the Master Matrix
ps_sp_matrix = psuedo_sparse_matrix.psuedo_sparse_matrix(db, populated_matrix, 0)
print 'Psuedo Sparse Matrix in %.4fs' %(time.clock()-ti)
ti = time.clock()
#______________________________________________________________________
#Creating Index Matrix
index_matrix = psuedo_sparse_matrix.generate_index_matrix(db, 0)
print 'Index Matrix in %.4fs' %(time.clock()-ti)
ti = time.clock()
dbc.close()
"""
# Populating the Master Matrix for Household Types
populated_matrix = psuedo_sparse_matrix.populate_master_matrix(
db, 99999, hhld_units, gq_units, hhld_dimensions, gq_dimensions,
person_dimensions)
print 'Populated in %.4fs' % (time.clock() - ti)
ti = time.clock()
# Sparse representation of the Master Matrix for Household Types
ps_sp_matrix = psuedo_sparse_matrix.psuedo_sparse_matrix(
db, populated_matrix, 99999, project)
print 'Psuedo Sparse Matrix in %.4fs' % (time.clock() - ti)
ti = time.clock()
#______________________________________________________________________
#Creating Index Matrix of the Master Matrix for Household Types
index_matrix = psuedo_sparse_matrix.generate_index_matrix(db, 99999)
print 'Index Matrix in %.4fs' % (time.clock() - ti)
ti = time.clock()
dbc.close()
#______________________________________________________________________
# creating synthetic_population tables in MySQL
drawing_households.create_synthetic_attribute_tables(db)
# creating performance_statistics table in MySQL
drawing_households.create_performance_table(db)
# Total PUMS Sample x composite_type adjustment for hhld
adjusting_sample_joint_distribution.create_joint_dist(
db, 'hhld', hhld_control_variables, hhld_dimensions, 0, 0, 0)
# Total PUMS Sample x composite_type adjustment for gq
adjusting_sample_joint_distribution.create_joint_dist(
db, 'gq', gq_control_variables, gq_dimensions, 0, 0, 0)
# Total PUMS Sample x composite_type adjustment for person
adjusting_sample_joint_distribution.create_joint_dist(
db, 'person', person_control_variables, person_dimensions, 0, 0, 0)