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4e6ec9eef4e65c6efabae36b2307f2ad167977da
sqlalchemy/test/dialect/postgresql/test_reflection.py
T
Mike Bayer 4e6ec9eef4 - Repaired some typing and test issues related to the pypy 
psycopg2cffi dialect, in particular that the current 2.7.0 version
does not have native support for the JSONB type.  The version detection
for psycopg2 features has been tuned into a specific sub-version
for psycopg2cffi.  Additionally, test coverage has been enabled
for the full series of psycopg2 features under psycopg2cffi.
fixes #3439
2015-06-05 17:34:02 -04:00

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# coding: utf-8
from sqlalchemy.engine import reflection
from sqlalchemy.testing.assertions import eq_, assert_raises, \
AssertsExecutionResults
from sqlalchemy.testing import fixtures
from sqlalchemy import testing
from sqlalchemy import inspect
from sqlalchemy import Table, Column, MetaData, Integer, String, \
PrimaryKeyConstraint, ForeignKey, join, Sequence, UniqueConstraint, \
Index
from sqlalchemy import exc
import sqlalchemy as sa
from sqlalchemy.dialects.postgresql import base as postgresql
class ForeignTableReflectionTest(fixtures.TablesTest, AssertsExecutionResults):
"""Test reflection on foreign tables"""
__requires__ = 'postgresql_test_dblink',
__only_on__ = 'postgresql >= 9.3'
__backend__ = True
@classmethod
def define_tables(cls, metadata):
from sqlalchemy.testing import config
dblink = config.file_config.get(
'sqla_testing', 'postgres_test_db_link')
testtable = Table(
'testtable', metadata,
Column('id', Integer, primary_key=True),
Column('data', String(30)))
for ddl in [
"CREATE SERVER test_server FOREIGN DATA WRAPPER postgres_fdw "
"OPTIONS (dbname 'test', host '%s')" % dblink,
"CREATE USER MAPPING FOR public \
SERVER test_server options (user 'scott', password 'tiger')",
"CREATE FOREIGN TABLE test_foreigntable ( "
" id INT, "
" data VARCHAR(30) "
") SERVER test_server OPTIONS (table_name 'testtable')",
]:
sa.event.listen(metadata, "after_create", sa.DDL(ddl))
for ddl in [
'DROP FOREIGN TABLE test_foreigntable',
'DROP USER MAPPING FOR public SERVER test_server',
"DROP SERVER test_server"
]:
sa.event.listen(metadata, "before_drop", sa.DDL(ddl))
def test_foreign_table_is_reflected(self):
metadata = MetaData(testing.db)
table = Table('test_foreigntable', metadata, autoload=True)
eq_(set(table.columns.keys()), set(['id', 'data']),
"Columns of reflected foreign table didn't equal expected columns")
def test_get_foreign_table_names(self):
inspector = inspect(testing.db)
with testing.db.connect() as conn:
ft_names = inspector.get_foreign_table_names()
eq_(ft_names, ['test_foreigntable'])
def test_get_table_names_no_foreign(self):
inspector = inspect(testing.db)
with testing.db.connect() as conn:
names = inspector.get_table_names()
eq_(names, ['testtable'])
class MaterialiedViewReflectionTest(
fixtures.TablesTest, AssertsExecutionResults):
"""Test reflection on materialized views"""
__only_on__ = 'postgresql >= 9.3'
__backend__ = True
@classmethod
def define_tables(cls, metadata):
testtable = Table(
'testtable', metadata,
Column('id', Integer, primary_key=True),
Column('data', String(30)))
# insert data before we create the view
@sa.event.listens_for(testtable, "after_create")
def insert_data(target, connection, **kw):
connection.execute(
target.insert(),
{"id": 89, "data": 'd1'}
)
materialized_view = sa.DDL(
"CREATE MATERIALIZED VIEW test_mview AS "
"SELECT * FROM testtable")
plain_view = sa.DDL(
"CREATE VIEW test_regview AS "
"SELECT * FROM testtable")
sa.event.listen(testtable, 'after_create', plain_view)
sa.event.listen(testtable, 'after_create', materialized_view)
sa.event.listen(
testtable, 'before_drop',
sa.DDL("DROP MATERIALIZED VIEW test_mview")
)
sa.event.listen(
testtable, 'before_drop',
sa.DDL("DROP VIEW test_regview")
)
def test_mview_is_reflected(self):
metadata = MetaData(testing.db)
table = Table('test_mview', metadata, autoload=True)
eq_(set(table.columns.keys()), set(['id', 'data']),
"Columns of reflected mview didn't equal expected columns")
def test_mview_select(self):
metadata = MetaData(testing.db)
table = Table('test_mview', metadata, autoload=True)
eq_(
table.select().execute().fetchall(),
[(89, 'd1',)]
)
def test_get_view_names(self):
insp = inspect(testing.db)
eq_(set(insp.get_view_names()), set(['test_mview', 'test_regview']))
class DomainReflectionTest(fixtures.TestBase, AssertsExecutionResults):
"""Test PostgreSQL domains"""
__only_on__ = 'postgresql > 8.3'
__backend__ = True
@classmethod
def setup_class(cls):
con = testing.db.connect()
for ddl in \
'CREATE DOMAIN testdomain INTEGER NOT NULL DEFAULT 42', \
'CREATE DOMAIN test_schema.testdomain INTEGER DEFAULT 0', \
"CREATE TYPE testtype AS ENUM ('test')", \
'CREATE DOMAIN enumdomain AS testtype':
try:
con.execute(ddl)
except exc.DBAPIError as e:
if 'already exists' not in str(e):
raise e
con.execute('CREATE TABLE testtable (question integer, answer '
'testdomain)')
con.execute('CREATE TABLE test_schema.testtable(question '
'integer, answer test_schema.testdomain, anything '
'integer)')
con.execute('CREATE TABLE crosschema (question integer, answer '
'test_schema.testdomain)')
con.execute('CREATE TABLE enum_test (id integer, data enumdomain)')
@classmethod
def teardown_class(cls):
con = testing.db.connect()
con.execute('DROP TABLE testtable')
con.execute('DROP TABLE test_schema.testtable')
con.execute('DROP TABLE crosschema')
con.execute('DROP DOMAIN testdomain')
con.execute('DROP DOMAIN test_schema.testdomain')
con.execute("DROP TABLE enum_test")
con.execute("DROP DOMAIN enumdomain")
con.execute("DROP TYPE testtype")
def test_table_is_reflected(self):
metadata = MetaData(testing.db)
table = Table('testtable', metadata, autoload=True)
eq_(set(table.columns.keys()), set(['question', 'answer']),
"Columns of reflected table didn't equal expected columns")
assert isinstance(table.c.answer.type, Integer)
def test_domain_is_reflected(self):
metadata = MetaData(testing.db)
table = Table('testtable', metadata, autoload=True)
eq_(str(table.columns.answer.server_default.arg), '42',
"Reflected default value didn't equal expected value")
assert not table.columns.answer.nullable, \
'Expected reflected column to not be nullable.'
def test_enum_domain_is_reflected(self):
metadata = MetaData(testing.db)
table = Table('enum_test', metadata, autoload=True)
eq_(
table.c.data.type.enums,
('test', )
)
def test_table_is_reflected_test_schema(self):
metadata = MetaData(testing.db)
table = Table('testtable', metadata, autoload=True,
schema='test_schema')
eq_(set(table.columns.keys()), set(['question', 'answer',
'anything']),
"Columns of reflected table didn't equal expected columns")
assert isinstance(table.c.anything.type, Integer)
def test_schema_domain_is_reflected(self):
metadata = MetaData(testing.db)
table = Table('testtable', metadata, autoload=True,
schema='test_schema')
eq_(str(table.columns.answer.server_default.arg), '0',
"Reflected default value didn't equal expected value")
assert table.columns.answer.nullable, \
'Expected reflected column to be nullable.'
def test_crosschema_domain_is_reflected(self):
metadata = MetaData(testing.db)
table = Table('crosschema', metadata, autoload=True)
eq_(str(table.columns.answer.server_default.arg), '0',
"Reflected default value didn't equal expected value")
assert table.columns.answer.nullable, \
'Expected reflected column to be nullable.'
def test_unknown_types(self):
from sqlalchemy.databases import postgresql
ischema_names = postgresql.PGDialect.ischema_names
postgresql.PGDialect.ischema_names = {}
try:
m2 = MetaData(testing.db)
assert_raises(exc.SAWarning, Table, 'testtable', m2,
autoload=True)
@testing.emits_warning('Did not recognize type')
def warns():
m3 = MetaData(testing.db)
t3 = Table('testtable', m3, autoload=True)
assert t3.c.answer.type.__class__ == sa.types.NullType
finally:
postgresql.PGDialect.ischema_names = ischema_names
class ReflectionTest(fixtures.TestBase):
__only_on__ = 'postgresql'
__backend__ = True
@testing.fails_if("postgresql < 8.4",
"Better int2vector functions not available")
@testing.provide_metadata
def test_reflected_primary_key_order(self):
meta1 = self.metadata
subject = Table('subject', meta1,
Column('p1', Integer, primary_key=True),
Column('p2', Integer, primary_key=True),
PrimaryKeyConstraint('p2', 'p1')
)
meta1.create_all()
meta2 = MetaData(testing.db)
subject = Table('subject', meta2, autoload=True)
eq_(subject.primary_key.columns.keys(), ['p2', 'p1'])
@testing.provide_metadata
def test_pg_weirdchar_reflection(self):
meta1 = self.metadata
subject = Table('subject', meta1, Column('id$', Integer,
primary_key=True))
referer = Table(
'referer', meta1,
Column(
'id', Integer, primary_key=True),
Column(
'ref', Integer, ForeignKey('subject.id$')))
meta1.create_all()
meta2 = MetaData(testing.db)
subject = Table('subject', meta2, autoload=True)
referer = Table('referer', meta2, autoload=True)
self.assert_((subject.c['id$']
== referer.c.ref).compare(
subject.join(referer).onclause))
@testing.provide_metadata
def test_reflect_default_over_128_chars(self):
Table('t', self.metadata,
Column('x', String(200), server_default="abcd" * 40)
).create(testing.db)
m = MetaData()
t = Table('t', m, autoload=True, autoload_with=testing.db)
eq_(
t.c.x.server_default.arg.text, "'%s'::character varying" % (
"abcd" * 40)
)
@testing.fails_if("postgresql < 8.1", "schema name leaks in, not sure")
@testing.provide_metadata
def test_renamed_sequence_reflection(self):
metadata = self.metadata
t = Table('t', metadata, Column('id', Integer, primary_key=True))
metadata.create_all()
m2 = MetaData(testing.db)
t2 = Table('t', m2, autoload=True, implicit_returning=False)
eq_(t2.c.id.server_default.arg.text,
"nextval('t_id_seq'::regclass)")
r = t2.insert().execute()
eq_(r.inserted_primary_key, [1])
testing.db.connect().execution_options(autocommit=True).\
execute('alter table t_id_seq rename to foobar_id_seq'
)
m3 = MetaData(testing.db)
t3 = Table('t', m3, autoload=True, implicit_returning=False)
eq_(t3.c.id.server_default.arg.text,
"nextval('foobar_id_seq'::regclass)")
r = t3.insert().execute()
eq_(r.inserted_primary_key, [2])
@testing.provide_metadata
def test_renamed_pk_reflection(self):
metadata = self.metadata
t = Table('t', metadata, Column('id', Integer, primary_key=True))
metadata.create_all()
testing.db.connect().execution_options(autocommit=True).\
execute('alter table t rename id to t_id')
m2 = MetaData(testing.db)
t2 = Table('t', m2, autoload=True)
eq_([c.name for c in t2.primary_key], ['t_id'])
@testing.provide_metadata
def test_has_temporary_table(self):
assert not testing.db.has_table("some_temp_table")
user_tmp = Table(
"some_temp_table", self.metadata,
Column("id", Integer, primary_key=True),
Column('name', String(50)),
prefixes=['TEMPORARY']
)
user_tmp.create(testing.db)
assert testing.db.has_table("some_temp_table")
@testing.provide_metadata
def test_cross_schema_reflection_one(self):
meta1 = self.metadata
users = Table('users', meta1,
Column('user_id', Integer, primary_key=True),
Column('user_name', String(30), nullable=False),
schema='test_schema')
addresses = Table(
'email_addresses', meta1,
Column(
'address_id', Integer, primary_key=True),
Column(
'remote_user_id', Integer, ForeignKey(
users.c.user_id)),
Column(
'email_address', String(20)), schema='test_schema')
meta1.create_all()
meta2 = MetaData(testing.db)
addresses = Table('email_addresses', meta2, autoload=True,
schema='test_schema')
users = Table('users', meta2, mustexist=True,
schema='test_schema')
j = join(users, addresses)
self.assert_((users.c.user_id
== addresses.c.remote_user_id).compare(j.onclause))
@testing.provide_metadata
def test_cross_schema_reflection_two(self):
meta1 = self.metadata
subject = Table('subject', meta1,
Column('id', Integer, primary_key=True))
referer = Table('referer', meta1,
Column('id', Integer, primary_key=True),
Column('ref', Integer, ForeignKey('subject.id')),
schema='test_schema')
meta1.create_all()
meta2 = MetaData(testing.db)
subject = Table('subject', meta2, autoload=True)
referer = Table('referer', meta2, schema='test_schema',
autoload=True)
self.assert_((subject.c.id
== referer.c.ref).compare(
subject.join(referer).onclause))
@testing.provide_metadata
def test_cross_schema_reflection_three(self):
meta1 = self.metadata
subject = Table('subject', meta1,
Column('id', Integer, primary_key=True),
schema='test_schema_2')
referer = Table(
'referer',
meta1,
Column(
'id',
Integer,
primary_key=True),
Column(
'ref',
Integer,
ForeignKey('test_schema_2.subject.id')),
schema='test_schema')
meta1.create_all()
meta2 = MetaData(testing.db)
subject = Table('subject', meta2, autoload=True,
schema='test_schema_2')
referer = Table('referer', meta2, autoload=True,
schema='test_schema')
self.assert_((subject.c.id
== referer.c.ref).compare(
subject.join(referer).onclause))
@testing.provide_metadata
def test_cross_schema_reflection_four(self):
meta1 = self.metadata
subject = Table('subject', meta1,
Column('id', Integer, primary_key=True),
schema='test_schema_2')
referer = Table(
'referer',
meta1,
Column(
'id',
Integer,
primary_key=True),
Column(
'ref',
Integer,
ForeignKey('test_schema_2.subject.id')),
schema='test_schema')
meta1.create_all()
conn = testing.db.connect()
conn.detach()
conn.execute("SET search_path TO test_schema, test_schema_2")
meta2 = MetaData(bind=conn)
subject = Table('subject', meta2, autoload=True,
schema='test_schema_2',
postgresql_ignore_search_path=True)
referer = Table('referer', meta2, autoload=True,
schema='test_schema',
postgresql_ignore_search_path=True)
self.assert_((subject.c.id
== referer.c.ref).compare(
subject.join(referer).onclause))
conn.close()
@testing.provide_metadata
def test_cross_schema_reflection_five(self):
meta1 = self.metadata
# we assume 'public'
default_schema = testing.db.dialect.default_schema_name
subject = Table('subject', meta1,
Column('id', Integer, primary_key=True))
referer = Table('referer', meta1,
Column('id', Integer, primary_key=True),
Column('ref', Integer, ForeignKey('subject.id')))
meta1.create_all()
meta2 = MetaData(testing.db)
subject = Table('subject', meta2, autoload=True,
schema=default_schema,
postgresql_ignore_search_path=True
)
referer = Table('referer', meta2, autoload=True,
schema=default_schema,
postgresql_ignore_search_path=True
)
assert subject.schema == default_schema
self.assert_((subject.c.id
== referer.c.ref).compare(
subject.join(referer).onclause))
@testing.provide_metadata
def test_cross_schema_reflection_six(self):
# test that the search path *is* taken into account
# by default
meta1 = self.metadata
Table('some_table', meta1,
Column('id', Integer, primary_key=True),
schema='test_schema'
)
Table('some_other_table', meta1,
Column('id', Integer, primary_key=True),
Column('sid', Integer, ForeignKey('test_schema.some_table.id')),
schema='test_schema_2'
)
meta1.create_all()
with testing.db.connect() as conn:
conn.detach()
conn.execute(
"set search_path to test_schema_2, test_schema, public")
m1 = MetaData(conn)
t1_schema = Table('some_table',
m1,
schema="test_schema",
autoload=True)
t2_schema = Table('some_other_table',
m1,
schema="test_schema_2",
autoload=True)
t2_no_schema = Table('some_other_table',
m1,
autoload=True)
t1_no_schema = Table('some_table',
m1,
autoload=True)
m2 = MetaData(conn)
t1_schema_isp = Table('some_table',
m2,
schema="test_schema",
autoload=True,
postgresql_ignore_search_path=True)
t2_schema_isp = Table('some_other_table',
m2,
schema="test_schema_2",
autoload=True,
postgresql_ignore_search_path=True)
# t2_schema refers to t1_schema, but since "test_schema"
# is in the search path, we instead link to t2_no_schema
assert t2_schema.c.sid.references(
t1_no_schema.c.id)
# the two no_schema tables refer to each other also.
assert t2_no_schema.c.sid.references(
t1_no_schema.c.id)
# but if we're ignoring search path, then we maintain
# those explicit schemas vs. what the "default" schema is
assert t2_schema_isp.c.sid.references(t1_schema_isp.c.id)
@testing.provide_metadata
def test_cross_schema_reflection_seven(self):
# test that the search path *is* taken into account
# by default
meta1 = self.metadata
Table('some_table', meta1,
Column('id', Integer, primary_key=True),
schema='test_schema'
)
Table('some_other_table', meta1,
Column('id', Integer, primary_key=True),
Column('sid', Integer, ForeignKey('test_schema.some_table.id')),
schema='test_schema_2'
)
meta1.create_all()
with testing.db.connect() as conn:
conn.detach()
conn.execute(
"set search_path to test_schema_2, test_schema, public")
meta2 = MetaData(conn)
meta2.reflect(schema="test_schema_2")
eq_(set(meta2.tables), set(
['test_schema_2.some_other_table', 'some_table']))
meta3 = MetaData(conn)
meta3.reflect(
schema="test_schema_2", postgresql_ignore_search_path=True)
eq_(set(meta3.tables), set(
['test_schema_2.some_other_table', 'test_schema.some_table']))
@testing.provide_metadata
def test_uppercase_lowercase_table(self):
metadata = self.metadata
a_table = Table('a', metadata, Column('x', Integer))
A_table = Table('A', metadata, Column('x', Integer))
a_table.create()
assert testing.db.has_table("a")
assert not testing.db.has_table("A")
A_table.create(checkfirst=True)
assert testing.db.has_table("A")
def test_uppercase_lowercase_sequence(self):
a_seq = Sequence('a')
A_seq = Sequence('A')
a_seq.create(testing.db)
assert testing.db.dialect.has_sequence(testing.db, "a")
assert not testing.db.dialect.has_sequence(testing.db, "A")
A_seq.create(testing.db, checkfirst=True)
assert testing.db.dialect.has_sequence(testing.db, "A")
a_seq.drop(testing.db)
A_seq.drop(testing.db)
@testing.provide_metadata
def test_index_reflection(self):
""" Reflecting partial & expression-based indexes should warn
"""
metadata = self.metadata
t1 = Table(
'party', metadata,
Column(
'id', String(10), nullable=False),
Column(
'name', String(20), index=True),
Column(
'aname', String(20)))
metadata.create_all()
testing.db.execute("""
create index idx1 on party ((id || name))
""")
testing.db.execute("""
create unique index idx2 on party (id) where name = 'test'
""")
testing.db.execute("""
create index idx3 on party using btree
(lower(name::text), lower(aname::text))
""")
def go():
m2 = MetaData(testing.db)
t2 = Table('party', m2, autoload=True)
assert len(t2.indexes) == 2
# Make sure indexes are in the order we expect them in
tmp = [(idx.name, idx) for idx in t2.indexes]
tmp.sort()
r1, r2 = [idx[1] for idx in tmp]
assert r1.name == 'idx2'
assert r1.unique == True
assert r2.unique == False
assert [t2.c.id] == r1.columns
assert [t2.c.name] == r2.columns
testing.assert_warnings(
go,
['Skipped unsupported reflection of '
'expression-based index idx1',
'Predicate of partial index idx2 ignored during '
'reflection',
'Skipped unsupported reflection of '
'expression-based index idx3'])
@testing.provide_metadata
def test_index_reflection_modified(self):
"""reflect indexes when a column name has changed - PG 9
does not update the name of the column in the index def.
[ticket:2141]
"""
metadata = self.metadata
t1 = Table('t', metadata,
Column('id', Integer, primary_key=True),
Column('x', Integer)
)
metadata.create_all()
conn = testing.db.connect().execution_options(autocommit=True)
conn.execute("CREATE INDEX idx1 ON t (x)")
conn.execute("ALTER TABLE t RENAME COLUMN x to y")
ind = testing.db.dialect.get_indexes(conn, "t", None)
eq_(ind, [{'unique': False, 'column_names': ['y'], 'name': 'idx1'}])
conn.close()
@testing.provide_metadata
def test_foreign_key_option_inspection(self):
metadata = self.metadata
Table(
'person',
metadata,
Column(
'id',
String(
length=32),
nullable=False,
primary_key=True),
Column(
'company_id',
ForeignKey(
'company.id',
name='person_company_id_fkey',
match='FULL',
onupdate='RESTRICT',
ondelete='RESTRICT',
deferrable=True,
initially='DEFERRED')))
Table(
'company', metadata,
Column('id', String(length=32), nullable=False, primary_key=True),
Column('name', String(length=255)),
Column(
'industry_id',
ForeignKey(
'industry.id',
name='company_industry_id_fkey',
onupdate='CASCADE', ondelete='CASCADE',
deferrable=False, # PG default
# PG default
initially='IMMEDIATE'
)
)
)
Table('industry', metadata,
Column('id', Integer(), nullable=False, primary_key=True),
Column('name', String(length=255))
)
fk_ref = {
'person_company_id_fkey': {
'name': 'person_company_id_fkey',
'constrained_columns': ['company_id'],
'referred_columns': ['id'],
'referred_table': 'company',
'referred_schema': None,
'options': {
'onupdate': 'RESTRICT',
'deferrable': True,
'ondelete': 'RESTRICT',
'initially': 'DEFERRED',
'match': 'FULL'
}
},
'company_industry_id_fkey': {
'name': 'company_industry_id_fkey',
'constrained_columns': ['industry_id'],
'referred_columns': ['id'],
'referred_table': 'industry',
'referred_schema': None,
'options': {
'onupdate': 'CASCADE',
'deferrable': None,
'ondelete': 'CASCADE',
'initially': None,
'match': None
}
}
}
metadata.create_all()
inspector = inspect(testing.db)
fks = inspector.get_foreign_keys('person') + \
inspector.get_foreign_keys('company')
for fk in fks:
eq_(fk, fk_ref[fk['name']])
@testing.provide_metadata
def test_inspect_enums_schema(self):
conn = testing.db.connect()
enum_type = postgresql.ENUM(
'sad', 'ok', 'happy', name='mood',
schema='test_schema',
metadata=self.metadata)
enum_type.create(conn)
inspector = reflection.Inspector.from_engine(conn.engine)
eq_(
inspector.get_enums('test_schema'), [{
'visible': False,
'name': 'mood',
'schema': 'test_schema',
'labels': ['sad', 'ok', 'happy']
}])
@testing.provide_metadata
def test_inspect_enums(self):
enum_type = postgresql.ENUM(
'cat', 'dog', 'rat', name='pet', metadata=self.metadata)
enum_type.create(testing.db)
inspector = reflection.Inspector.from_engine(testing.db)
eq_(inspector.get_enums(), [
{
'visible': True,
'labels': ['cat', 'dog', 'rat'],
'name': 'pet',
'schema': 'public'
}])
@testing.provide_metadata
def test_inspect_enums_star(self):
enum_type = postgresql.ENUM(
'cat', 'dog', 'rat', name='pet', metadata=self.metadata)
schema_enum_type = postgresql.ENUM(
'sad', 'ok', 'happy', name='mood',
schema='test_schema',
metadata=self.metadata)
enum_type.create(testing.db)
schema_enum_type.create(testing.db)
inspector = reflection.Inspector.from_engine(testing.db)
eq_(inspector.get_enums(), [
{
'visible': True,
'labels': ['cat', 'dog', 'rat'],
'name': 'pet',
'schema': 'public'
}])
eq_(inspector.get_enums('*'), [
{
'visible': True,
'labels': ['cat', 'dog', 'rat'],
'name': 'pet',
'schema': 'public'
},
{
'visible': False,
'name': 'mood',
'schema': 'test_schema',
'labels': ['sad', 'ok', 'happy']
}])
@testing.provide_metadata
@testing.only_on("postgresql >= 8.5")
def test_reflection_with_unique_constraint(self):
insp = inspect(testing.db)
meta = self.metadata
uc_table = Table('pgsql_uc', meta,
Column('a', String(10)),
UniqueConstraint('a', name='uc_a'))
uc_table.create()
# PostgreSQL will create an implicit index for a unique
# constraint. Separately we get both
indexes = set(i['name'] for i in insp.get_indexes('pgsql_uc'))
constraints = set(i['name']
for i in insp.get_unique_constraints('pgsql_uc'))
self.assert_('uc_a' in indexes)
self.assert_('uc_a' in constraints)
# reflection corrects for the dupe
reflected = Table('pgsql_uc', MetaData(testing.db), autoload=True)
indexes = set(i.name for i in reflected.indexes)
constraints = set(uc.name for uc in reflected.constraints)
self.assert_('uc_a' not in indexes)
self.assert_('uc_a' in constraints)
@testing.provide_metadata
def test_reflect_unique_index(self):
insp = inspect(testing.db)
meta = self.metadata
# a unique index OTOH we are able to detect is an index
# and not a unique constraint
uc_table = Table('pgsql_uc', meta,
Column('a', String(10)),
Index('ix_a', 'a', unique=True))
uc_table.create()
indexes = dict((i['name'], i) for i in insp.get_indexes('pgsql_uc'))
constraints = set(i['name']
for i in insp.get_unique_constraints('pgsql_uc'))
self.assert_('ix_a' in indexes)
assert indexes['ix_a']['unique']
self.assert_('ix_a' not in constraints)
reflected = Table('pgsql_uc', MetaData(testing.db), autoload=True)
indexes = dict((i.name, i) for i in reflected.indexes)
constraints = set(uc.name for uc in reflected.constraints)
self.assert_('ix_a' in indexes)
assert indexes['ix_a'].unique
self.assert_('ix_a' not in constraints)
class CustomTypeReflectionTest(fixtures.TestBase):
class CustomType(object):
def __init__(self, arg1=None, arg2=None):
self.arg1 = arg1
self.arg2 = arg2
ischema_names = None
def setup(self):
ischema_names = postgresql.PGDialect.ischema_names
postgresql.PGDialect.ischema_names = ischema_names.copy()
self.ischema_names = ischema_names
def teardown(self):
postgresql.PGDialect.ischema_names = self.ischema_names
self.ischema_names = None
def _assert_reflected(self, dialect):
for sch, args in [
('my_custom_type', (None, None)),
('my_custom_type()', (None, None)),
('my_custom_type(ARG1)', ('ARG1', None)),
('my_custom_type(ARG1, ARG2)', ('ARG1', 'ARG2')),
]:
column_info = dialect._get_column_info(
'colname', sch, None, False,
{}, {}, 'public')
assert isinstance(column_info['type'], self.CustomType)
eq_(column_info['type'].arg1, args[0])
eq_(column_info['type'].arg2, args[1])
def test_clslevel(self):
postgresql.PGDialect.ischema_names['my_custom_type'] = self.CustomType
dialect = postgresql.PGDialect()
self._assert_reflected(dialect)
def test_instancelevel(self):
dialect = postgresql.PGDialect()
dialect.ischema_names = dialect.ischema_names.copy()
dialect.ischema_names['my_custom_type'] = self.CustomType
self._assert_reflected(dialect)
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