def setUp(self): self.db_config = TestDatabaseConfiguration(protocol=self.protocol) self.db_config_node = self.db_config._database_configuration_node() self.db_server = DatabaseServer(self.db_config) self.test_db = 'OpusDatabaseTestDatabase' self.export_from_cache_opus_path = "opus_core.tools.do_export_cache_to_sql" self.export_to_cache_opus_path = "opus_core.tools.do_export_sql_to_cache" self.year = 1000 self.temp_dir = tempfile.mkdtemp(prefix='opus_tmp') self.test_data = { self.year: { 'table_a': { 'tablea_id': array([1, 2, 3]), 'tablea_id_name': array(['1', '2', '3']), 'value1': array([1.0, 2.001, 3], dtype='float'), 'value2': array([True, False, False], dtype='i' ), ## sqlit is having problem handling bool type }, 'table_b': { 'tableb_id': array([1, 2, 3]), 'tableb_id_name': array(['one', 'two', 'three']), 'value3': array([1.0, 2.001, 3], dtype='float'), }, }, } cache_creator = CreateTestAttributeCache() cache_creator.create_attribute_cache_with_data(self.temp_dir, self.test_data)
def test_attributes(self): from opus_core.database_management.configurations.test_database_configuration import TestDatabaseConfiguration c1 = TestDatabaseConfiguration(protocol='prot', host_name='h', user_name='fred', password='******') self.assertEqual(c1.protocol, 'prot') self.assertEqual(c1.host_name, 'h') self.assertEqual(c1.user_name, 'fred') self.assertEqual(c1.password, 'secret') c3 = TestDatabaseConfiguration(protocol = 'mysql', user_name = 'fred') self.assertEqual(c3.protocol, 'mysql') self.assertEqual(c3.host_name, 'localhost') self.assertEqual(c3.user_name, 'fred') self.assertEqual(c3.password, os.environ.get('SQLPASSWORD', ''))
def test_combine_tables(self): CombineTables().combine_tables( TestDatabaseConfiguration(protocol='mysql'), self.db_name, [i[0] for i in self.from_tables], self.to_table) expected_rows = 0 for table, type in self.from_tables: count = self.db.GetResultsFromQuery('select count(*) from %s' % table)[1:][0][0] expected_rows += count try: count = self.db.GetResultsFromQuery('select count(*) from %s;' % self.to_table)[1:][0][0] except: self.fail('Expected output table %s does not exist.' % self.to_table) if (expected_rows != count): for table_name, type in self.from_tables: self._print_table(table_name) self._print_table(self.to_table) self.assert_( expected_rows == count, 'Incorrect number of rows in output. Expected %s; received %s.' % (expected_rows, count))
def setUp(self): self.db_name = 'test_create_table' self.db_server = DatabaseServer(TestDatabaseConfiguration(protocol = 'mysql')) self.db_server.drop_database(self.db_name) self.db_server.create_database(self.db_name) self.db = self.db_server.get_database(self.db_name)
def setUp(self): self.db_name = 'test_rename_commercial_and_industrial' self.db_server = DatabaseServer(TestDatabaseConfiguration(protocol = 'mysql')) self.db_server.drop_database(self.db_name) self.db_server.create_database(self.db_name) self.db = self.db_server.get_database(self.db_name) self.tables_to_convert = ( 'employment_commercial_location_choice_model_specification', 'employment_commercial_location_choice_model_coefficients', 'employment_industrial_location_choice_model_specification', 'employment_industrial_location_choice_model_coefficients', ) self.other_tables = ( 'i_am_not_to_be_renamed_location_choice_model_specifications', 'i_am_not_to_be_renamed_location_choice_model_coefficients', 'employment_industrial_location_choice_model_coefficients_old', ) for table in self.tables_to_convert + self.other_tables: self.db.DoQuery('CREATE TABLE %s (id INT);' % table) self.output_tables = ( 'commercial_employment_location_choice_model_specification', 'commercial_employment_location_choice_model_coefficients', 'industrial_employment_location_choice_model_specification', 'industrial_employment_location_choice_model_coefficients', )
def setUp(self): self.db_config = TestDatabaseConfiguration(protocol = self.protocol) self.db_config_node = self.db_config._database_configuration_node() self.db_server = DatabaseServer(self.db_config) self.test_db = 'OpusDatabaseTestDatabase' self.export_from_cache_opus_path = "opus_core.tools.do_export_cache_to_sql" self.export_to_cache_opus_path = "opus_core.tools.do_export_sql_to_cache" self.year = 1000 self.temp_dir = tempfile.mkdtemp(prefix='opus_tmp') self.test_data = { self.year:{ 'table_a':{ 'tablea_id':array([1,2,3]), 'tablea_id_name': array(['1','2','3']), 'value1': array([1.0, 2.001, 3], dtype='float'), 'value2': array([True, False, False], dtype='i'), ## sqlit is having problem handling bool type }, 'table_b':{ 'tableb_id':array([1,2,3]), 'tableb_id_name': array(['one','two','three']), 'value3': array([1.0, 2.001, 3], dtype='float'), }, }, } cache_creator = CreateTestAttributeCache() cache_creator.create_attribute_cache_with_data(self.temp_dir, self.test_data)
def setUp(self): db_configs = [] for engine in get_testable_engines(): config = TestDatabaseConfiguration(protocol=engine) db_configs.append(config) self.database_name = 'test_database' self.dbs = [] for config in db_configs: try: server = DatabaseServer(config) if server.has_database(self.database_name): server.drop_database(self.database_name) server.create_database(self.database_name) self.assertTrue( server.has_database(database_name=self.database_name)) db = OpusDatabase(database_server_configuration=config, database_name=self.database_name) storage = sql_storage(storage_location=db) self.dbs.append((db, server, storage)) self.storage = storage except: import traceback traceback.print_exc() print 'WARNING: could not start server for protocol %s' % config.protocol
def setUp(self): db_configs = [] for engine in _get_installed_database_engines(): config = TestDatabaseConfiguration(protocol=engine) db_configs.append(config) self.test_db = 'OpusDatabaseTestDatabase' test_table = 'test_table' self.dbs = [] for config in db_configs: try: server = DatabaseServer(config) if server.has_database(self.test_db): server.drop_database(self.test_db) server.create_database(self.test_db) self.assertTrue( server.has_database(database_name=self.test_db)) db = OpusDatabase(database_server_configuration=config, database_name=self.test_db) self.assertFalse(db.table_exists(test_table)) self.dbs.append((db, server)) except: import traceback traceback.print_exc() logger.log_warning('Could not start server for protocol %s' % config.protocol)
def test_create_table(self): CombineTables().combine_tables( TestDatabaseConfiguration(protocol='mysql'), self.db_name, [i[0] for i in self.from_tables], self.to_table) try: self.db.DoQuery('select * from %s;' % self.to_table) except: self.fail('Output table %s not created.' % self.to_table)
def test_create_table(self): CreateJobBuildingTypesTable().create_building_types_table( TestDatabaseConfiguration(protocol='mysql'), self.db_name) try: self.db.DoQuery('select * from job_building_types;') except: self.fail( 'Expected output table job_building_types does not exist.')
def test_rename_tables(self): r = RenameBySwappingEmploymentAndCommercialOrIndustrialOrHomeBasedForElcm() r.rename_by_swapping_employment_and_commercial_or_industrial_or_home_based_for_elcm( TestDatabaseConfiguration(protocol = 'mysql'), self.db_name) for table in self.output_tables + self.other_tables: if not self.db.table_exists(table): self.fail('Expected output table %s does not exist.' % table) for table in self.tables_to_convert: if self.db.table_exists(table): self.fail('Input table %s still exists.' % table)
def test_convert_databases(self): ConvertDatabase().convert_databases( TestDatabaseConfiguration(protocol='mysql'), self.config) for db_name in self.config['databases']: db = self.db_server.get_database(db_name) tables = self.config['tables'][db_name] for table in tables: results = db.GetResultsFromQuery('select * from %s;' % table) self.assert_( results == self.expected_output_changed, "Convert failed %s (%s) -- incorrect conversion." " Expected %s. Recieved %s." % (db_name, table, self.expected_output_changed, results))
def setUp(self): self.database_name = 'test_travel_model_input_file_writer' self.dbconfig = TestDatabaseConfiguration() self.db_server = DatabaseServer(self.dbconfig) self.db_server.drop_database(self.database_name) self.db_server.create_database(self.database_name) self.database = self.db_server.get_database(self.database_name) self.create_jobs_table(self.database) self.create_zones_table(self.database) self.create_employment_sector_groups_table(self.database) self.create_constant_taz_columns_table(self.database) self.create_households_table(self.database) self.tempdir_path = tempfile.mkdtemp(prefix='opus_tmp')
def test_create_table(self): creator = TableCreator() db = creator._get_db(TestDatabaseConfiguration(protocol = 'mysql'), self.db_name) self.assert_(not db.table_exists('test_table')) self.assert_(not db.table_exists('test_table_bak')) db.DoQuery('CREATE TABLE test_table ' '(id INT, name varchar(50), units varchar(50));') self.assert_(db.table_exists('test_table')) self.assert_(not db.table_exists('test_table_bak')) creator._backup_table(db, 'test_table') self.assert_(db.table_exists('test_table')) self.assert_(db.table_exists('test_table_bak')) creator._drop_table(db, 'test_table') self.assert_(not db.table_exists('test_table')) self.assert_(db.table_exists('test_table_bak'))
def setUp(self): self.db_server = DatabaseServer( TestDatabaseConfiguration(protocol='mysql')) self.db_name = 'test_combine_tables' self.db_server.drop_database(self.db_name) self.db_server.create_database(self.db_name) self.db = self.db_server.get_database(self.db_name) self.from_tables = ( ('table_a', 'A'), ('table_b', 'B'), ('table_c', 'C'), ('table_d', 'D'), ) table_ids = { 'table_a': [1], 'table_b': [2, 3], 'table_c': [4, 5, 6, 7], 'table_d': [8, 9, 10, 11, 12, 13, 14, 15], } self.to_table = 'to_table' for table, type in self.from_tables: self.db.DoQuery('CREATE TABLE %s (job_id INT, sector_id INT, ' 'grid_id INT, sic INT, building_type varchar(5), ' 'home_based tinyint(4), impute_flag tinyint(4));' % table) values = ','.join([ '(%(j)s, %(j)s, %(j)s, %(j)s, "%(type)s", %(j)s, %(j)s)' % { 'j': j, 'type': type } for j in table_ids[table] ]) self.db.DoQuery( 'INSERT INTO %(table_name)s (job_id, sector_id, ' 'grid_id, sic, building_type, home_based, impute_flag) VALUES ' '%(values)s;' % { 'table_name': table, 'values': values, }) number_rows = self.db.GetResultsFromQuery( 'SELECT count(*) FROM %s' % table)[1][0] self.assertEqual(number_rows, len(table_ids[table]))
def setUp(self): self.databases = ['db_chain_son', 'db_chain_dad', 'db_chain_granddad'] self.config = TestDatabaseConfiguration( protocol=get_default_database_engine()) self.server = DatabaseServer(self.config) self._create_databases() self.db_chain_granddad = self.server.get_database('db_chain_granddad') self.db_chain_dad = self.server.get_database('db_chain_dad') self.db_chain_son = self.server.get_database('db_chain_son') self._create_tables() self.granddad_schema = self.db_chain_granddad.get_table('base_schema') self.dad_schema = self.db_chain_dad.get_table('base_schema') self.granddad_schema2 = self.db_chain_granddad.get_table( 'base_schema2') self.son_schema2 = self.db_chain_son.get_table('base_schema2') self._seed_values()
def test_values(self): CreateJobBuildingTypesTable().create_building_types_table( TestDatabaseConfiguration(protocol='mysql'), self.db_name) expected_results = [['id', 'name', 'home_based'], [1, "commercial", 0], [3, "industrial", 0], [2, "governmental", 0], [4, "home_based", 1]] try: results = self.db.GetResultsFromQuery( 'select * from job_building_types;') except: self.fail( 'Expected output table job_building_types does not exist.') self.assert_( expected_results == results, "Table job_building_types has incorrect values! " "Expected: %s. Received: %s" % (expected_results, results))
def setUp(self): self.config = TestDatabaseConfiguration( database_name='eugene_services_test') self.temp_dir = tempfile.mkdtemp(prefix='opus_tmp')
def setUp(self): self.database_name = 'test_services_database' self.config = TestDatabaseConfiguration( database_name=self.database_name) self.db_server = DatabaseServer(self.config)
class AbstractFunctionalTest(object): protocol = '' def setUp(self): self.db_config = TestDatabaseConfiguration(protocol=self.protocol) self.db_config_node = self.db_config._database_configuration_node() self.db_server = DatabaseServer(self.db_config) self.test_db = 'OpusDatabaseTestDatabase' self.export_from_cache_opus_path = "opus_core.tools.do_export_cache_to_sql" self.export_to_cache_opus_path = "opus_core.tools.do_export_sql_to_cache" self.year = 1000 self.temp_dir = tempfile.mkdtemp(prefix='opus_tmp') self.test_data = { self.year: { 'table_a': { 'tablea_id': array([1, 2, 3]), 'tablea_id_name': array(['1', '2', '3']), 'value1': array([1.0, 2.001, 3], dtype='float'), 'value2': array([True, False, False], dtype='i' ), ## sqlit is having problem handling bool type }, 'table_b': { 'tableb_id': array([1, 2, 3]), 'tableb_id_name': array(['one', 'two', 'three']), 'value3': array([1.0, 2.001, 3], dtype='float'), }, }, } cache_creator = CreateTestAttributeCache() cache_creator.create_attribute_cache_with_data(self.temp_dir, self.test_data) def tearDown(self): if self.db_server.has_database(self.test_db): self.db_server.drop_database(self.test_db) self.db_server.close() if os.path.exists(self.temp_dir): rmtree(self.temp_dir) def test_export_all_tables(self): logger.log_status("Test export all tables for %s with %s" % (self.protocol, self.__class__)) optional_args = [ '-c', os.path.join(self.temp_dir, str(self.year)), '-d', self.test_db, '--database_configuration=%s' % self.db_config_node ] self._call_script(self.export_from_cache_opus_path, args=optional_args) self.assertTrue( self.db_server.has_database(database_name=self.test_db)) db = OpusDatabase(database_server_configuration=self.db_config, database_name=self.test_db) table_names = self.test_data[self.year].keys() existing_tables = db.get_tables_in_database() self.assertEqual(set(existing_tables), set(table_names)) ## export data from db to cache export_year = str(self.year + 100) exp_dir = os.path.join(self.temp_dir, export_year) optional_args = [ '-d', self.test_db, '-c', self.temp_dir, '-y', export_year, '--database_configuration=%s' % self.db_config_node ] self._call_script(self.export_to_cache_opus_path, args=optional_args) exported_datasets = [os.path.split(f)[1] for f in glob(exp_dir + '/*')] self.assertEqual(set(exported_datasets), set(table_names)) org_dir = os.path.join(self.temp_dir, str(self.year)) self._two_caches_are_identical(org_dir, exp_dir) db.close() self.db_server.drop_database(self.test_db) rmtree(exp_dir) def test_export_one_table(self): logger.log_status("Test export single table for %s with %s" % (self.protocol, self.__class__)) for table_name in self.test_data[self.year].keys(): self._test_export_one_table(table_name) def _test_export_one_table(self, table_name): optional_args = [ '-c', os.path.join(self.temp_dir, str(self.year)), '-d', self.test_db, '-t', table_name, '--database_configuration=%s' % self.db_config_node ] self._call_script(self.export_from_cache_opus_path, args=optional_args) self.assertTrue( self.db_server.has_database(database_name=self.test_db)) db = OpusDatabase(database_server_configuration=self.db_config, database_name=self.test_db) existing_tables = db.get_tables_in_database() self.assertEqual(set(existing_tables), set([table_name])) export_year = str(self.year + 100) exp_dir = os.path.join(self.temp_dir, export_year) optional_args = [ '-d', self.test_db, '-c', self.temp_dir, '-y', export_year, '-t', table_name, '--database_configuration=%s' % self.db_config_node ] self._call_script(self.export_to_cache_opus_path, args=optional_args) exported_datasets = [ os.path.split(f)[1] for f in glob(os.path.join(self.temp_dir, export_year) + '/*') ] self.assertEqual(set(exported_datasets), set([table_name])) org_dir = os.path.join(self.temp_dir, str(self.year)) self._two_caches_are_identical(org_dir, exp_dir, table_names=[table_name]) db.close() self.db_server.drop_database(self.test_db) rmtree(exp_dir) def _call_script(self, opus_path, args): Popen(" %s %s %s" % (sys.executable, module_path_from_opus_path(opus_path), ' '.join(args)), shell=True).communicate() def _two_caches_are_identical(self, cache_a, cache_b, table_names=None): """ Check to see if two caches contains identical datasets even though their data types can be different """ if table_names is None: table_names = os.listdir(cache_a) for table_name in table_names: field_names_a = glob(os.path.join(cache_a, table_name) + '/*') field_names_b = glob(os.path.join(cache_b, table_name) + '/*') self.assertEqual(len(field_names_a), len(field_names_b)) field_names_a.sort() field_names_b.sort() [ self.assertTrue(cmp(f_a, f_b)) for f_a, f_b in zip(field_names_a, field_names_b) ]
class AbstractFunctionalTest(object): protocol = '' def setUp(self): self.db_config = TestDatabaseConfiguration(protocol = self.protocol) self.db_config_node = self.db_config._database_configuration_node() self.db_server = DatabaseServer(self.db_config) self.test_db = 'OpusDatabaseTestDatabase' self.export_from_cache_opus_path = "opus_core.tools.do_export_cache_to_sql" self.export_to_cache_opus_path = "opus_core.tools.do_export_sql_to_cache" self.year = 1000 self.temp_dir = tempfile.mkdtemp(prefix='opus_tmp') self.test_data = { self.year:{ 'table_a':{ 'tablea_id':array([1,2,3]), 'tablea_id_name': array(['1','2','3']), 'value1': array([1.0, 2.001, 3], dtype='float'), 'value2': array([True, False, False], dtype='i'), ## sqlit is having problem handling bool type }, 'table_b':{ 'tableb_id':array([1,2,3]), 'tableb_id_name': array(['one','two','three']), 'value3': array([1.0, 2.001, 3], dtype='float'), }, }, } cache_creator = CreateTestAttributeCache() cache_creator.create_attribute_cache_with_data(self.temp_dir, self.test_data) def tearDown(self): if self.db_server.has_database(self.test_db): self.db_server.drop_database(self.test_db) self.db_server.close() if os.path.exists(self.temp_dir): rmtree(self.temp_dir) def test_export_all_tables(self): logger.log_status("Test export all tables for %s with %s" % (self.protocol, self.__class__)) optional_args = ['-c', os.path.join(self.temp_dir, str(self.year)), '-d', self.test_db, '--database_configuration=%s' % self.db_config_node ] self._call_script(self.export_from_cache_opus_path, args = optional_args) self.assertTrue(self.db_server.has_database(database_name = self.test_db)) db = OpusDatabase(database_server_configuration = self.db_config, database_name = self.test_db) table_names = self.test_data[self.year].keys() existing_tables = db.get_tables_in_database() self.assertEqual( set(existing_tables), set(table_names) ) ## export data from db to cache export_year = str(self.year + 100) exp_dir = os.path.join(self.temp_dir, export_year) optional_args = ['-d', self.test_db, '-c', self.temp_dir, '-y', export_year, '--database_configuration=%s' % self.db_config_node ] self._call_script(self.export_to_cache_opus_path, args = optional_args) exported_datasets = [os.path.split(f)[1] for f in glob(exp_dir + '/*')] self.assertEqual( set(exported_datasets), set(table_names)) org_dir = os.path.join(self.temp_dir, str(self.year)) self._two_caches_are_identical(org_dir, exp_dir) db.close() self.db_server.drop_database(self.test_db) rmtree(exp_dir) def test_export_one_table(self): logger.log_status("Test export single table for %s with %s" % (self.protocol, self.__class__)) for table_name in self.test_data[self.year].keys(): self._test_export_one_table(table_name) def _test_export_one_table(self, table_name): optional_args = ['-c', os.path.join(self.temp_dir, str(self.year)), '-d', self.test_db, '-t', table_name, '--database_configuration=%s' % self.db_config_node ] self._call_script(self.export_from_cache_opus_path, args = optional_args) self.assertTrue(self.db_server.has_database(database_name = self.test_db)) db = OpusDatabase(database_server_configuration = self.db_config, database_name = self.test_db) existing_tables = db.get_tables_in_database() self.assertEqual( set(existing_tables), set([table_name]) ) export_year = str(self.year + 100) exp_dir = os.path.join(self.temp_dir, export_year) optional_args = ['-d', self.test_db, '-c', self.temp_dir, '-y', export_year, '-t', table_name, '--database_configuration=%s' % self.db_config_node ] self._call_script(self.export_to_cache_opus_path, args = optional_args) exported_datasets = [os.path.split(f)[1] for f in glob(os.path.join(self.temp_dir, export_year) + '/*')] self.assertEqual( set(exported_datasets), set([table_name])) org_dir = os.path.join(self.temp_dir, str(self.year)) self._two_caches_are_identical(org_dir, exp_dir, table_names=[table_name]) db.close() self.db_server.drop_database(self.test_db) rmtree(exp_dir) def _call_script(self, opus_path, args): Popen( " %s %s %s" % (sys.executable, module_path_from_opus_path(opus_path), ' '.join(args)), shell = True ).communicate() def _two_caches_are_identical(self, cache_a, cache_b, table_names=None): """ Check to see if two caches contains identical datasets even though their data types can be different """ if table_names is None: table_names = os.listdir(cache_a) for table_name in table_names: field_names_a = glob(os.path.join(cache_a, table_name) + '/*') field_names_b = glob(os.path.join(cache_b, table_name) + '/*') self.assertEqual(len(field_names_a), len(field_names_b)) field_names_a.sort(); field_names_b.sort() [self.assertTrue(cmp(f_a, f_b)) for f_a, f_b in zip(field_names_a, field_names_b)]
def get_postgres_server(self): server_config = TestDatabaseConfiguration( protocol = 'postgres') return DatabaseServer(server_config)
def get_mssql_server(self): server_config = TestDatabaseConfiguration( protocol = 'mssql') s = DatabaseServer(server_config) return s
def setUp(self): self.test_db_names = [ 'convert_database_test_db1', 'convert_database_test_db2', ] self.test_table_names = [ 'table1', 'table2', 'table3', ] table_schema = 'id INT, do_not_change_this_column TEXT, variable_name TEXT' table_data = ('(1,"Does not match P A T T E R N.","Matches pattern."),' '(2,"Matches pattern.","Does not match P A T T E R N."),' '(3,NULL,NULL),' '(4,"","")') self.expected_output_unchanged = [ ['id', 'do_not_change_this_column', 'variable_name'], [1, "Does not match P A T T E R N.", "Matches pattern."], [2, "Matches pattern.", "Does not match P A T T E R N."], [3, None, None], [4, "", ""] ] self.patterns = [(r'(pattern)(\.)', r'\1 well\2'), (r'^Matches pattern well\.$', r'Matches pattern perfectly!')] self.expected_output_changed = [ ['id', 'do_not_change_this_column', 'variable_name'], [1, "Does not match P A T T E R N.", "Matches pattern perfectly!"], [2, "Matches pattern.", "Does not match P A T T E R N."], [3, None, None], [4, "", ""] ] insert_items_template = ("insert into %(table)s values %(data)s;") table_list = {} for db_name in self.test_db_names: table_list[db_name] = [] for table in self.test_table_names: table_list[db_name] += [table] self.config = { 'databases': self.test_db_names, 'tables': table_list, 'backup': True, 'backup_postfix': '_old', } self.db_server = DatabaseServer( TestDatabaseConfiguration(protocol='mysql')) self.dbs = [] for db_name in self.test_db_names: self.db_server.drop_database(db_name) self.db_server.create_database(db_name) self.dbs += [self.db_server.get_database(db_name)] for db in self.dbs: for table_name in self.test_table_names: db.DoQuery('create table %s (%s)' % (table_name, table_schema)) db.DoQuery(insert_items_template % { 'table': table_name, 'data': table_data })
def setUp(self): self.test_db_names = [ 'convert_database_test_db1', 'convert_database_test_db2', ] self.test_table_names = [ 'table1', 'table2', 'table3', ] table_structure = 'id INT, do_not_change_this_column TEXT, variable_name TEXT' table_data = ( '(1,"No opus dot.","constant"),' '(2,"opus.core.miscellaneous","No opus dot."),' '(3,"opus.urbansim.gridcell.percent_water",' '"gc_cbd = gridcell.disaggregate(' 'opus.psrc.zone.generalized_cost_hbw_am_drive_alone_to_129)"),' '(4,"","")') self.expected_output_unchanged = [ ['id', 'do_not_change_this_column', 'variable_name'], [1, "No opus dot.", "constant"], [2, "opus.core.miscellaneous", "No opus dot."], [ 3, "opus.urbansim.gridcell.percent_water", "gc_cbd = gridcell.disaggregate(" "opus.psrc.zone.generalized_cost_hbw_am_drive_alone_to_129)" ], [4, "", ""] ] self.expected_output_changed = [ ['id', 'do_not_change_this_column', 'variable_name'], [1, "No opus dot.", "constant"], [2, "opus.core.miscellaneous", "No opus dot."], [ 3, "opus.urbansim.gridcell.percent_water", "gc_cbd = gridcell.disaggregate(" "psrc.zone.generalized_cost_hbw_am_drive_alone_to_129)" ], [4, "", ""] ] insert_items_template = ("insert into %(table)s values %(data)s;") table_list = {} for db_name in self.test_db_names: table_list[db_name] = [] for table in self.test_table_names: table_list[db_name] += [table] self.config = { 'databases': self.test_db_names, 'tables': table_list, 'backup': True, 'backup_postfix': '_old', } self.db_server = DatabaseServer( TestDatabaseConfiguration(protocol='mysql')) self.dbs = [] for db_name in self.test_db_names: self.db_server.drop_database(db_name) self.db_server.create_database(db_name) self.dbs += [self.db_server.get_database(db_name)] for db in self.dbs: for table_name in self.test_table_names: db.DoQuery('create table %s (%s)' % (table_name, table_structure)) db.DoQuery(insert_items_template % { 'table': table_name, 'data': table_data })
def test_create_table(self): CreateBuildingTypesTable().create_building_types_table( TestDatabaseConfiguration(protocol = 'mysql'), self.db_name) self.assert_(self.db.table_exists('building_types'))
def get_sqlite_server(self): server_config = TestDatabaseConfiguration( protocol = 'sqlite') s = DatabaseServer(server_config) return s