path: root/lib/python2.7/site-packages/SQLAlchemy-0.7.0-py2.7-linux-x86_64.egg/sqlalchemy/dialects/postgresql/base.py

# postgresql/base.py
# Copyright (C) 2005-2011 the SQLAlchemy authors and contributors <see AUTHORS file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php

"""Support for the PostgreSQL database.

For information on connecting using specific drivers, see the documentation
section regarding that driver.

Sequences/SERIAL
----------------

PostgreSQL supports sequences, and SQLAlchemy uses these as the default means
of creating new primary key values for integer-based primary key columns. When
creating tables, SQLAlchemy will issue the ``SERIAL`` datatype for
integer-based primary key columns, which generates a sequence and server side
default corresponding to the column.

To specify a specific named sequence to be used for primary key generation,
use the :func:`~sqlalchemy.schema.Sequence` construct::

    Table('sometable', metadata, 
            Column('id', Integer, Sequence('some_id_seq'), primary_key=True)
        )

When SQLAlchemy issues a single INSERT statement, to fulfill the contract of
having the "last insert identifier" available, a RETURNING clause is added to
the INSERT statement which specifies the primary key columns should be
returned after the statement completes. The RETURNING functionality only takes
place if Postgresql 8.2 or later is in use. As a fallback approach, the
sequence, whether specified explicitly or implicitly via ``SERIAL``, is
executed independently beforehand, the returned value to be used in the
subsequent insert. Note that when an
:func:`~sqlalchemy.sql.expression.insert()` construct is executed using
"executemany" semantics, the "last inserted identifier" functionality does not
apply; no RETURNING clause is emitted nor is the sequence pre-executed in this
case.

To force the usage of RETURNING by default off, specify the flag
``implicit_returning=False`` to :func:`.create_engine`.

Transaction Isolation Level
---------------------------

:func:`.create_engine` accepts an ``isolation_level`` parameter which results
in the command ``SET SESSION CHARACTERISTICS AS TRANSACTION ISOLATION LEVEL
<level>`` being invoked for every new connection. Valid values for this
parameter are ``READ_COMMITTED``, ``READ_UNCOMMITTED``, ``REPEATABLE_READ``,
and ``SERIALIZABLE``.  Note that the psycopg2 dialect does *not* use this
technique and uses psycopg2-specific APIs (see that dialect for details).

INSERT/UPDATE...RETURNING
-------------------------

The dialect supports PG 8.2's ``INSERT..RETURNING``, ``UPDATE..RETURNING`` and
``DELETE..RETURNING`` syntaxes.   ``INSERT..RETURNING`` is used by default
for single-row INSERT statements in order to fetch newly generated
primary key identifiers.   To specify an explicit ``RETURNING`` clause,
use the :meth:`._UpdateBase.returning` method on a per-statement basis::

    # INSERT..RETURNING
    result = table.insert().returning(table.c.col1, table.c.col2).\\
        values(name='foo')
    print result.fetchall()

    # UPDATE..RETURNING
    result = table.update().returning(table.c.col1, table.c.col2).\\
        where(table.c.name=='foo').values(name='bar')
    print result.fetchall()

    # DELETE..RETURNING
    result = table.delete().returning(table.c.col1, table.c.col2).\\
        where(table.c.name=='foo')
    print result.fetchall()

Indexes
-------

PostgreSQL supports partial indexes. To create them pass a postgresql_where
option to the Index constructor::

  Index('my_index', my_table.c.id, postgresql_where=tbl.c.value > 10)

"""

import re

from sqlalchemy import sql, schema, exc, util
from sqlalchemy.engine import default, reflection
from sqlalchemy.sql import compiler, expression, util as sql_util
from sqlalchemy import types as sqltypes

try:
    from uuid import UUID as _python_UUID
except ImportError:
    _python_UUID = None

from sqlalchemy.types import INTEGER, BIGINT, SMALLINT, VARCHAR, \
        CHAR, TEXT, FLOAT, NUMERIC, \
        DATE, BOOLEAN, REAL

RESERVED_WORDS = set(
    ["all", "analyse", "analyze", "and", "any", "array", "as", "asc",
    "asymmetric", "both", "case", "cast", "check", "collate", "column",
    "constraint", "create", "current_catalog", "current_date",
    "current_role", "current_time", "current_timestamp", "current_user",
    "default", "deferrable", "desc", "distinct", "do", "else", "end",
    "except", "false", "fetch", "for", "foreign", "from", "grant", "group",
    "having", "in", "initially", "intersect", "into", "leading", "limit",
    "localtime", "localtimestamp", "new", "not", "null", "off", "offset",
    "old", "on", "only", "or", "order", "placing", "primary", "references",
    "returning", "select", "session_user", "some", "symmetric", "table",
    "then", "to", "trailing", "true", "union", "unique", "user", "using",
    "variadic", "when", "where", "window", "with", "authorization",
    "between", "binary", "cross", "current_schema", "freeze", "full",
    "ilike", "inner", "is", "isnull", "join", "left", "like", "natural",
    "notnull", "outer", "over", "overlaps", "right", "similar", "verbose"
    ])

_DECIMAL_TYPES = (1231, 1700)
_FLOAT_TYPES = (700, 701, 1021, 1022)
_INT_TYPES = (20, 21, 23, 26, 1005, 1007, 1016)

class BYTEA(sqltypes.LargeBinary):
    __visit_name__ = 'BYTEA'

class DOUBLE_PRECISION(sqltypes.Float):
    __visit_name__ = 'DOUBLE_PRECISION'

class INET(sqltypes.TypeEngine):
    __visit_name__ = "INET"
PGInet = INET

class CIDR(sqltypes.TypeEngine):
    __visit_name__ = "CIDR"
PGCidr = CIDR

class MACADDR(sqltypes.TypeEngine):
    __visit_name__ = "MACADDR"
PGMacAddr = MACADDR

class TIMESTAMP(sqltypes.TIMESTAMP):
    def __init__(self, timezone=False, precision=None):
        super(TIMESTAMP, self).__init__(timezone=timezone)
        self.precision = precision


class TIME(sqltypes.TIME):
    def __init__(self, timezone=False, precision=None):
        super(TIME, self).__init__(timezone=timezone)
        self.precision = precision

class INTERVAL(sqltypes.TypeEngine):
    """Postgresql INTERVAL type.

    The INTERVAL type may not be supported on all DBAPIs.
    It is known to work on psycopg2 and not pg8000 or zxjdbc.

    """
    __visit_name__ = 'INTERVAL'
    def __init__(self, precision=None):
        self.precision = precision

    @classmethod
    def _adapt_from_generic_interval(cls, interval):
        return INTERVAL(precision=interval.second_precision)

    @property
    def _type_affinity(self):
        return sqltypes.Interval

PGInterval = INTERVAL

class BIT(sqltypes.TypeEngine):
    __visit_name__ = 'BIT'
    def __init__(self, length=None, varying=False):
        if not varying:
            # BIT without VARYING defaults to length 1
            self.length = length or 1
        else:
            # but BIT VARYING can be unlimited-length, so no default
            self.length = length
        self.varying = varying

PGBit = BIT

class UUID(sqltypes.TypeEngine):
    """Postgresql UUID type.

    Represents the UUID column type, interpreting
    data either as natively returned by the DBAPI
    or as Python uuid objects.

    The UUID type may not be supported on all DBAPIs.
    It is known to work on psycopg2 and not pg8000.

    """
    __visit_name__ = 'UUID'

    def __init__(self, as_uuid=False):
        """Construct a UUID type.


        :param as_uuid=False: if True, values will be interpreted
         as Python uuid objects, converting to/from string via the
         DBAPI.

         """
        if as_uuid and _python_UUID is None:
            raise NotImplementedError(
                    "This version of Python does not support the native UUID type."
                )
        self.as_uuid = as_uuid

    def bind_processor(self, dialect):
        if self.as_uuid:
            def process(value):
                if value is not None:
                    value = str(value)
                return value
            return process
        else:
            return None

    def result_processor(self, dialect, coltype):
        if self.as_uuid:
            def process(value):
                if value is not None:
                    value = _python_UUID(value)
                return value
            return process
        else:
            return None

PGUuid = UUID

class ARRAY(sqltypes.MutableType, sqltypes.Concatenable, sqltypes.TypeEngine):
    """Postgresql ARRAY type.

    Represents values as Python lists.

    The ARRAY type may not be supported on all DBAPIs.
    It is known to work on psycopg2 and not pg8000.


    """
    __visit_name__ = 'ARRAY'

    def __init__(self, item_type, mutable=False, as_tuple=False):
        """Construct an ARRAY.

        E.g.::

          Column('myarray', ARRAY(Integer))

        Arguments are:

        :param item_type: The data type of items of this array. Note that
          dimensionality is irrelevant here, so multi-dimensional arrays like
          ``INTEGER[][]``, are constructed as ``ARRAY(Integer)``, not as
          ``ARRAY(ARRAY(Integer))`` or such. The type mapping figures out on
          the fly

        :param mutable=False: Specify whether lists passed to this
          class should be considered mutable - this enables 
          "mutable types" mode in the ORM.  Be sure to read the 
          notes for :class:`.MutableType` regarding ORM 
          performance implications (default changed from ``True`` in 
          0.7.0).

          .. note:: This functionality is now superseded by the
             ``sqlalchemy.ext.mutable`` extension described in 
             :ref:`mutable_toplevel`.

        :param as_tuple=False: Specify whether return results
          should be converted to tuples from lists. DBAPIs such
          as psycopg2 return lists by default. When tuples are
          returned, the results are hashable. This flag can only
          be set to ``True`` when ``mutable`` is set to
          ``False``. (new in 0.6.5)

        """
        if isinstance(item_type, ARRAY):
            raise ValueError("Do not nest ARRAY types; ARRAY(basetype) "
                            "handles multi-dimensional arrays of basetype")
        if isinstance(item_type, type):
            item_type = item_type()
        self.item_type = item_type
        self.mutable = mutable
        if mutable and as_tuple:
            raise exc.ArgumentError(
                "mutable must be set to False if as_tuple is True."
            )
        self.as_tuple = as_tuple

    def copy_value(self, value):
        if value is None:
            return None
        elif self.mutable:
            return list(value)
        else:
            return value

    def compare_values(self, x, y):
        return x == y

    def is_mutable(self):
        return self.mutable

    def bind_processor(self, dialect):
        item_proc = self.item_type.dialect_impl(dialect).bind_processor(dialect)
        if item_proc:
            def convert_item(item):
                if isinstance(item, (list, tuple)):
                    return [convert_item(child) for child in item]
                else:
                    return item_proc(item)
        else:
            def convert_item(item):
                if isinstance(item, (list, tuple)):
                    return [convert_item(child) for child in item]
                else:
                    return item
        def process(value):
            if value is None:
                return value
            return [convert_item(item) for item in value]
        return process

    def result_processor(self, dialect, coltype):
        item_proc = self.item_type.dialect_impl(dialect).result_processor(dialect, coltype)
        if item_proc:
            def convert_item(item):
                if isinstance(item, list):
                    r = [convert_item(child) for child in item]
                    if self.as_tuple:
                        r = tuple(r)
                    return r
                else:
                    return item_proc(item)
        else:
            def convert_item(item):
                if isinstance(item, list):
                    r = [convert_item(child) for child in item]
                    if self.as_tuple:
                        r = tuple(r)
                    return r
                else:
                    return item
        def process(value):
            if value is None:
                return value
            r = [convert_item(item) for item in value]
            if self.as_tuple:
                r = tuple(r)
            return r
        return process
PGArray = ARRAY

class ENUM(sqltypes.Enum):

    def create(self, bind=None, checkfirst=True):
        if not bind.dialect.supports_native_enum:
            return

        if not checkfirst or \
            not bind.dialect.has_type(bind, self.name, schema=self.schema):
            bind.execute(CreateEnumType(self))

    def drop(self, bind=None, checkfirst=True):
        if not bind.dialect.supports_native_enum:
            return

        if not checkfirst or \
            bind.dialect.has_type(bind, self.name, schema=self.schema):
            bind.execute(DropEnumType(self))

    def _on_table_create(self, event, target, bind, **kw):
        self.create(bind=bind, checkfirst=True)

    def _on_metadata_create(self, event, target, bind, **kw):
        if self.metadata is not None:
            self.create(bind=bind, checkfirst=True)

    def _on_metadata_drop(self, event, target, bind, **kw):
        self.drop(bind=bind, checkfirst=True)

colspecs = {
    sqltypes.Interval:INTERVAL,
    sqltypes.Enum:ENUM,
}

ischema_names = {
    'integer' : INTEGER,
    'bigint' : BIGINT,
    'smallint' : SMALLINT,
    'character varying' : VARCHAR,
    'character' : CHAR,
    '"char"' : sqltypes.String,
    'name' : sqltypes.String,
    'text' : TEXT,
    'numeric' : NUMERIC,
    'float' : FLOAT,
    'real' : REAL,
    'inet': INET,
    'cidr': CIDR,
    'uuid': UUID,
    'bit': BIT,
    'bit varying': BIT,
    'macaddr': MACADDR,
    'double precision' : DOUBLE_PRECISION,
    'timestamp' : TIMESTAMP,
    'timestamp with time zone' : TIMESTAMP,
    'timestamp without time zone' : TIMESTAMP,
    'time with time zone' : TIME,
    'time without time zone' : TIME,
    'date' : DATE,
    'time': TIME,
    'bytea' : BYTEA,
    'boolean' : BOOLEAN,
    'interval':INTERVAL,
    'interval year to month':INTERVAL,
    'interval day to second':INTERVAL,
}



class PGCompiler(compiler.SQLCompiler):

    def visit_match_op(self, binary, **kw):
        return "%s @@ to_tsquery(%s)" % (
                        self.process(binary.left), 
                        self.process(binary.right))

    def visit_ilike_op(self, binary, **kw):
        escape = binary.modifiers.get("escape", None)
        return '%s ILIKE %s' % \
                (self.process(binary.left), self.process(binary.right)) \
                + (escape and 
                        (' ESCAPE ' + self.render_literal_value(escape, None))
                        or '')

    def visit_notilike_op(self, binary, **kw):
        escape = binary.modifiers.get("escape", None)
        return '%s NOT ILIKE %s' % \
                (self.process(binary.left), self.process(binary.right)) \
                + (escape and 
                        (' ESCAPE ' + self.render_literal_value(escape, None))
                        or '')

    def render_literal_value(self, value, type_):
        value = super(PGCompiler, self).render_literal_value(value, type_)
        # TODO: need to inspect "standard_conforming_strings"
        if self.dialect._backslash_escapes:
            value = value.replace('\\', '\\\\')
        return value

    def visit_sequence(self, seq):
        return "nextval('%s')" % self.preparer.format_sequence(seq)

    def limit_clause(self, select):
        text = ""
        if select._limit is not None:
            text +=  " \n LIMIT " + self.process(sql.literal(select._limit))
        if select._offset is not None:
            if select._limit is None:
                text += " \n LIMIT ALL"
            text += " OFFSET " + self.process(sql.literal(select._offset))
        return text

    def get_select_precolumns(self, select):
        if select._distinct is not False:
            if select._distinct is True:
                return "DISTINCT "
            elif isinstance(select._distinct, (list, tuple)):
                return "DISTINCT ON (" + ', '.join(
                    [self.process(col) for col in select._distinct]
                )+ ") "
            else:
                return "DISTINCT ON (" + self.process(select._distinct) + ") "
        else:
            return ""

    def for_update_clause(self, select):
        if select.for_update == 'nowait':
            return " FOR UPDATE NOWAIT"
        else:
            return super(PGCompiler, self).for_update_clause(select)

    def returning_clause(self, stmt, returning_cols):

        columns = [
                self.process(
                    self.label_select_column(None, c, asfrom=False), 
                    within_columns_clause=True, 
                    result_map=self.result_map) 
                for c in expression._select_iterables(returning_cols)
            ]

        return 'RETURNING ' + ', '.join(columns)

    def visit_extract(self, extract, **kwargs):
        field = self.extract_map.get(extract.field, extract.field)
        if extract.expr.type:
            affinity = extract.expr.type._type_affinity
        else:
            affinity = None

        casts = {
                    sqltypes.Date:'date', 
                    sqltypes.DateTime:'timestamp', 
                    sqltypes.Interval:'interval', sqltypes.Time:'time'
                }
        cast = casts.get(affinity, None)
        if isinstance(extract.expr, sql.ColumnElement) and cast is not None:
            expr = extract.expr.op('::')(sql.literal_column(cast))
        else:
            expr = extract.expr
        return "EXTRACT(%s FROM %s)" % (
            field, self.process(expr))

class PGDDLCompiler(compiler.DDLCompiler):
    def get_column_specification(self, column, **kwargs):
        colspec = self.preparer.format_column(column)
        impl_type = column.type.dialect_impl(self.dialect)
        if column.primary_key and \
            column is column.table._autoincrement_column and \
            not isinstance(impl_type, sqltypes.SmallInteger) and \
            (
                column.default is None or 
                (
                    isinstance(column.default, schema.Sequence) and
                    column.default.optional
                )
            ):
            if isinstance(impl_type, sqltypes.BigInteger):
                colspec += " BIGSERIAL"
            else:
                colspec += " SERIAL"
        else:
            colspec += " " + self.dialect.type_compiler.process(column.type)
            default = self.get_column_default_string(column)
            if default is not None:
                colspec += " DEFAULT " + default

        if not column.nullable:
            colspec += " NOT NULL"
        return colspec

    def visit_create_enum_type(self, create):
        type_ = create.element

        return "CREATE TYPE %s AS ENUM (%s)" % (
            self.preparer.format_type(type_),
            ",".join("'%s'" % e for e in type_.enums)
        )

    def visit_drop_enum_type(self, drop):
        type_ = drop.element

        return "DROP TYPE %s" % (
            self.preparer.format_type(type_)
        )

    def visit_create_index(self, create):
        preparer = self.preparer
        index = create.element
        text = "CREATE "
        if index.unique:
            text += "UNIQUE "
        text += "INDEX %s ON %s (%s)" \
                % (preparer.quote(
                    self._index_identifier(index.name), index.quote),
                   preparer.format_table(index.table),
                   ', '.join([preparer.format_column(c) 
                                for c in index.columns]))

        if "postgres_where" in index.kwargs:
            whereclause = index.kwargs['postgres_where']
            util.warn_deprecated(
                    "The 'postgres_where' argument has been renamed "
                    "to 'postgresql_where'.")
        elif 'postgresql_where' in index.kwargs:
            whereclause = index.kwargs['postgresql_where']
        else:
            whereclause = None

        if whereclause is not None:
            whereclause = sql_util.expression_as_ddl(whereclause)
            where_compiled = self.sql_compiler.process(whereclause)
            text += " WHERE " + where_compiled
        return text


class PGTypeCompiler(compiler.GenericTypeCompiler):
    def visit_INET(self, type_):
        return "INET"

    def visit_CIDR(self, type_):
        return "CIDR"

    def visit_MACADDR(self, type_):
        return "MACADDR"

    def visit_FLOAT(self, type_):
        if not type_.precision:
            return "FLOAT"
        else:
            return "FLOAT(%(precision)s)" % {'precision': type_.precision}

    def visit_DOUBLE_PRECISION(self, type_):
        return "DOUBLE PRECISION"

    def visit_BIGINT(self, type_):
        return "BIGINT"

    def visit_datetime(self, type_):
        return self.visit_TIMESTAMP(type_)

    def visit_enum(self, type_):
        if not type_.native_enum or not self.dialect.supports_native_enum:
            return super(PGTypeCompiler, self).visit_enum(type_)
        else:
            return self.visit_ENUM(type_)

    def visit_ENUM(self, type_):
        return self.dialect.identifier_preparer.format_type(type_)

    def visit_TIMESTAMP(self, type_):
        return "TIMESTAMP%s %s" % (
            getattr(type_, 'precision', None) and "(%d)" % 
            type_.precision or "",
            (type_.timezone and "WITH" or "WITHOUT") + " TIME ZONE"
        )

    def visit_TIME(self, type_):
        return "TIME%s %s" % (
            getattr(type_, 'precision', None) and "(%d)" % 
            type_.precision or "",
            (type_.timezone and "WITH" or "WITHOUT") + " TIME ZONE"
        )

    def visit_INTERVAL(self, type_):
        if type_.precision is not None:
            return "INTERVAL(%d)" % type_.precision
        else:
            return "INTERVAL"

    def visit_BIT(self, type_):
        if type_.varying:
            compiled = "BIT VARYING"
            if type_.length is not None:
                compiled += "(%d)" % type_.length
        else:
            compiled = "BIT(%d)" % type_.length
        return compiled

    def visit_UUID(self, type_):
        return "UUID"

    def visit_large_binary(self, type_):
        return self.visit_BYTEA(type_)

    def visit_BYTEA(self, type_):
        return "BYTEA"

    def visit_ARRAY(self, type_):
        return self.process(type_.item_type) + '[]'


class PGIdentifierPreparer(compiler.IdentifierPreparer):

    reserved_words = RESERVED_WORDS

    def _unquote_identifier(self, value):
        if value[0] == self.initial_quote:
            value = value[1:-1].\
                        replace(self.escape_to_quote, self.escape_quote)
        return value

    def format_type(self, type_, use_schema=True):
        if not type_.name:
            raise exc.ArgumentError("Postgresql ENUM type requires a name.")

        name = self.quote(type_.name, type_.quote)
        if not self.omit_schema and use_schema and type_.schema is not None:
            name = self.quote_schema(type_.schema, type_.quote) + "." + name
        return name

class PGInspector(reflection.Inspector):

    def __init__(self, conn):
        reflection.Inspector.__init__(self, conn)

    def get_table_oid(self, table_name, schema=None):
        """Return the oid from `table_name` and `schema`."""

        return self.dialect.get_table_oid(self.bind, table_name, schema,
                                          info_cache=self.info_cache)

class CreateEnumType(schema._CreateDropBase):
  __visit_name__ = "create_enum_type"

class DropEnumType(schema._CreateDropBase):
  __visit_name__ = "drop_enum_type"

class PGExecutionContext(default.DefaultExecutionContext):
    def fire_sequence(self, seq, type_):
        return self._execute_scalar(("select nextval('%s')" % \
                self.dialect.identifier_preparer.format_sequence(seq)), type_)

    def get_insert_default(self, column):
        if column.primary_key and column is column.table._autoincrement_column:
            if column.server_default and column.server_default.has_argument:

                # pre-execute passive defaults on primary key columns
                return self._execute_scalar("select %s" %
                                    column.server_default.arg, column.type)

            elif (column.default is None or 
                        (column.default.is_sequence and
                        column.default.optional)):

                # execute the sequence associated with a SERIAL primary 
                # key column. for non-primary-key SERIAL, the ID just
                # generates server side.

                try:
                    seq_name = column._postgresql_seq_name
                except AttributeError:
                    tab = column.table.name 
                    col = column.name 
                    tab = tab[0:29 + max(0, (29 - len(col)))] 
                    col = col[0:29 + max(0, (29 - len(tab)))] 
                    column._postgresql_seq_name = seq_name = "%s_%s_seq" % (tab, col)

                sch = column.table.schema
                if sch is not None:
                    exc = "select nextval('\"%s\".\"%s\"')" % \
                            (sch, seq_name)
                else:
                    exc = "select nextval('\"%s\"')" % \
                            (seq_name, )

                return self._execute_scalar(exc, column.type)

        return super(PGExecutionContext, self).get_insert_default(column)

class PGDialect(default.DefaultDialect):
    name = 'postgresql'
    supports_alter = True
    max_identifier_length = 63
    supports_sane_rowcount = True

    supports_native_enum = True
    supports_native_boolean = True

    supports_sequences = True
    sequences_optional = True
    preexecute_autoincrement_sequences = True
    postfetch_lastrowid = False

    supports_default_values = True
    supports_empty_insert = False
    default_paramstyle = 'pyformat'
    ischema_names = ischema_names
    colspecs = colspecs

    statement_compiler = PGCompiler
    ddl_compiler = PGDDLCompiler
    type_compiler = PGTypeCompiler
    preparer = PGIdentifierPreparer
    execution_ctx_cls = PGExecutionContext
    inspector = PGInspector
    isolation_level = None

    # TODO: need to inspect "standard_conforming_strings"
    _backslash_escapes = True

    def __init__(self, isolation_level=None, **kwargs):
        default.DefaultDialect.__init__(self, **kwargs)
        self.isolation_level = isolation_level

    def initialize(self, connection):
        super(PGDialect, self).initialize(connection)
        self.implicit_returning = self.server_version_info > (8, 2) and \
                            self.__dict__.get('implicit_returning', True)
        self.supports_native_enum = self.server_version_info >= (8, 3)
        if not self.supports_native_enum:
            self.colspecs = self.colspecs.copy()
            # pop base Enum type
            self.colspecs.pop(sqltypes.Enum, None)
            # psycopg2, others may have placed ENUM here as well
            self.colspecs.pop(ENUM, None)

    def on_connect(self):
        if self.isolation_level is not None:
            def connect(conn):
                self.set_isolation_level(conn, self.isolation_level)
            return connect
        else:
            return None

    _isolation_lookup = set(['SERIALIZABLE', 
                'READ UNCOMMITTED', 'READ COMMITTED', 'REPEATABLE READ'])

    def set_isolation_level(self, connection, level):
        level = level.replace('_', ' ')
        if level not in self._isolation_lookup:
            raise exc.ArgumentError(
                "Invalid value '%s' for isolation_level. "
                "Valid isolation levels for %s are %s" % 
                (level, self.name, ", ".join(self._isolation_lookup))
                ) 
        cursor = connection.cursor()
        cursor.execute(
            "SET SESSION CHARACTERISTICS AS TRANSACTION "
            "ISOLATION LEVEL %s" % level)
        cursor.execute("COMMIT")
        cursor.close()

    def get_isolation_level(self, connection):
        cursor = connection.cursor()
        cursor.execute('show transaction isolation level')
        val = cursor.fetchone()[0]
        cursor.close()
        return val.upper()

    def do_begin_twophase(self, connection, xid):
        self.do_begin(connection.connection)

    def do_prepare_twophase(self, connection, xid):
        connection.execute("PREPARE TRANSACTION '%s'" % xid)

    def do_rollback_twophase(self, connection, xid, 
                                is_prepared=True, recover=False):
        if is_prepared:
            if recover:
                #FIXME: ugly hack to get out of transaction 
                # context when commiting recoverable transactions
                # Must find out a way how to make the dbapi not 
                # open a transaction.
                connection.execute("ROLLBACK")
            connection.execute("ROLLBACK PREPARED '%s'" % xid)
            connection.execute("BEGIN")
            self.do_rollback(connection.connection)
        else:
            self.do_rollback(connection.connection)

    def do_commit_twophase(self, connection, xid, 
                                is_prepared=True, recover=False):
        if is_prepared:
            if recover:
                connection.execute("ROLLBACK")
            connection.execute("COMMIT PREPARED '%s'" % xid)
            connection.execute("BEGIN")
            self.do_rollback(connection.connection)
        else:
            self.do_commit(connection.connection)

    def do_recover_twophase(self, connection):
        resultset = connection.execute(
                    sql.text("SELECT gid FROM pg_prepared_xacts"))
        return [row[0] for row in resultset]

    def _get_default_schema_name(self, connection):
        return connection.scalar("select current_schema()")

    def has_table(self, connection, table_name, schema=None):
        # seems like case gets folded in pg_class...
        if schema is None:
            cursor = connection.execute(
                sql.text(
                "select relname from pg_class c join pg_namespace n on "
                "n.oid=c.relnamespace where n.nspname=current_schema() and "
                "lower(relname)=:name",
                bindparams=[
                        sql.bindparam('name', unicode(table_name.lower()),
                        type_=sqltypes.Unicode)]
                )
            )
        else:
            cursor = connection.execute(
                sql.text(
                "select relname from pg_class c join pg_namespace n on "
                "n.oid=c.relnamespace where n.nspname=:schema and "
                "lower(relname)=:name",
                    bindparams=[
                        sql.bindparam('name', 
                        unicode(table_name.lower()), type_=sqltypes.Unicode),
                        sql.bindparam('schema', 
                        unicode(schema), type_=sqltypes.Unicode)] 
                )
            )
        return bool(cursor.first())

    def has_sequence(self, connection, sequence_name, schema=None):
        if schema is None:
            cursor = connection.execute(
                sql.text(
                    "SELECT relname FROM pg_class c join pg_namespace n on "
                    "n.oid=c.relnamespace where relkind='S' and "
                    "n.nspname=current_schema() "
                    "and lower(relname)=:name",
                    bindparams=[
                        sql.bindparam('name', unicode(sequence_name.lower()),
                        type_=sqltypes.Unicode)
                    ] 
                )
            )
        else:
            cursor = connection.execute(
                sql.text(
                "SELECT relname FROM pg_class c join pg_namespace n on "
                "n.oid=c.relnamespace where relkind='S' and "
                "n.nspname=:schema and lower(relname)=:name",
                bindparams=[
                    sql.bindparam('name', unicode(sequence_name.lower()),
                     type_=sqltypes.Unicode),
                    sql.bindparam('schema', 
                                unicode(schema), type_=sqltypes.Unicode)
                ]
            )
            )

        return bool(cursor.first())

    def has_type(self, connection, type_name, schema=None):
        bindparams = [
            sql.bindparam('typname',
                unicode(type_name), type_=sqltypes.Unicode),
            sql.bindparam('nspname',
                unicode(schema), type_=sqltypes.Unicode),
            ]
        if schema is not None:
            query = """
            SELECT EXISTS (
                SELECT * FROM pg_catalog.pg_type t, pg_catalog.pg_namespace n
                WHERE t.typnamespace = n.oid
                AND t.typname = :typname
                AND n.nspname = :nspname
                )
                """
        else:
            query = """
            SELECT EXISTS (
                SELECT * FROM pg_catalog.pg_type t
                WHERE t.typname = :typname
                AND pg_type_is_visible(t.oid)
                )
                """
        cursor = connection.execute(sql.text(query, bindparams=bindparams))
        return bool(cursor.scalar())

    def _get_server_version_info(self, connection):
        v = connection.execute("select version()").scalar()
        m = re.match('PostgreSQL (\d+)\.(\d+)(?:\.(\d+))?(?:devel)?', v)
        if not m:
            raise AssertionError(
                    "Could not determine version from string '%s'" % v)
        return tuple([int(x) for x in m.group(1, 2, 3) if x is not None])

    @reflection.cache
    def get_table_oid(self, connection, table_name, schema=None, **kw):
        """Fetch the oid for schema.table_name.

        Several reflection methods require the table oid.  The idea for using
        this method is that it can be fetched one time and cached for
        subsequent calls.

        """
        table_oid = None
        if schema is not None:
            schema_where_clause = "n.nspname = :schema"
        else:
            schema_where_clause = "pg_catalog.pg_table_is_visible(c.oid)"
        query = """
            SELECT c.oid
            FROM pg_catalog.pg_class c
            LEFT JOIN pg_catalog.pg_namespace n ON n.oid = c.relnamespace
            WHERE (%s)
            AND c.relname = :table_name AND c.relkind in ('r','v')
        """ % schema_where_clause
        # Since we're binding to unicode, table_name and schema_name must be
        # unicode.
        table_name = unicode(table_name)
        if schema is not None:
            schema = unicode(schema)
        s = sql.text(query, bindparams=[
            sql.bindparam('table_name', type_=sqltypes.Unicode),
            sql.bindparam('schema', type_=sqltypes.Unicode)
            ],
            typemap={'oid':sqltypes.Integer}
        )
        c = connection.execute(s, table_name=table_name, schema=schema)
        table_oid = c.scalar()
        if table_oid is None:
            raise exc.NoSuchTableError(table_name)
        return table_oid

    @reflection.cache
    def get_schema_names(self, connection, **kw):
        s = """
        SELECT nspname
        FROM pg_namespace
        ORDER BY nspname
        """
        rp = connection.execute(s)
        # what about system tables?
        # Py3K
        #schema_names = [row[0] for row in rp \
        #                if not row[0].startswith('pg_')]
        # Py2K
        schema_names = [row[0].decode(self.encoding) for row in rp \
                        if not row[0].startswith('pg_')]
        # end Py2K
        return schema_names

    @reflection.cache
    def get_table_names(self, connection, schema=None, **kw):
        if schema is not None:
            current_schema = schema
        else:
            current_schema = self.default_schema_name

        result = connection.execute(
            sql.text(u"SELECT relname FROM pg_class c "
                "WHERE relkind = 'r' "
                "AND '%s' = (select nspname from pg_namespace n "
                "where n.oid = c.relnamespace) " %
                current_schema,
                typemap = {'relname':sqltypes.Unicode}
            )
        )
        return [row[0] for row in result]


    @reflection.cache
    def get_view_names(self, connection, schema=None, **kw):
        if schema is not None:
            current_schema = schema
        else:
            current_schema = self.default_schema_name
        s = """
        SELECT relname
        FROM pg_class c
        WHERE relkind = 'v'
          AND '%(schema)s' = (select nspname from pg_namespace n 
          where n.oid = c.relnamespace)
        """ % dict(schema=current_schema)
        # Py3K
        #view_names = [row[0] for row in connection.execute(s)]
        # Py2K
        view_names = [row[0].decode(self.encoding) 
                            for row in connection.execute(s)]
        # end Py2K
        return view_names

    @reflection.cache
    def get_view_definition(self, connection, view_name, schema=None, **kw):
        if schema is not None:
            current_schema = schema
        else:
            current_schema = self.default_schema_name
        s = """
        SELECT definition FROM pg_views
        WHERE schemaname = :schema
        AND viewname = :view_name
        """
        rp = connection.execute(sql.text(s),
                                view_name=view_name, schema=current_schema)
        if rp:
            # Py3K
            #view_def = rp.scalar()
            # Py2K
            view_def = rp.scalar().decode(self.encoding)
            # end Py2K
            return view_def

    @reflection.cache
    def get_columns(self, connection, table_name, schema=None, **kw):

        table_oid = self.get_table_oid(connection, table_name, schema,
                                       info_cache=kw.get('info_cache'))
        SQL_COLS = """
            SELECT a.attname,
              pg_catalog.format_type(a.atttypid, a.atttypmod),
              (SELECT substring(pg_catalog.pg_get_expr(d.adbin, d.adrelid) 
                for 128) 
                FROM pg_catalog.pg_attrdef d
               WHERE d.adrelid = a.attrelid AND d.adnum = a.attnum 
               AND a.atthasdef)
              AS DEFAULT,
              a.attnotnull, a.attnum, a.attrelid as table_oid
            FROM pg_catalog.pg_attribute a
            WHERE a.attrelid = :table_oid
            AND a.attnum > 0 AND NOT a.attisdropped
            ORDER BY a.attnum
        """
        s = sql.text(SQL_COLS, 
            bindparams=[sql.bindparam('table_oid', type_=sqltypes.Integer)], 
            typemap={'attname':sqltypes.Unicode, 'default':sqltypes.Unicode}
        )
        c = connection.execute(s, table_oid=table_oid)
        rows = c.fetchall()
        domains = self._load_domains(connection)
        enums = self._load_enums(connection)

        # format columns
        columns = []
        for name, format_type, default, notnull, attnum, table_oid in rows:
            ## strip (5) from character varying(5), timestamp(5) 
            # with time zone, etc
            attype = re.sub(r'\([\d,]+\)', '', format_type)

            # strip '[]' from integer[], etc.
            attype = re.sub(r'\[\]', '', attype)

            nullable = not notnull
            is_array = format_type.endswith('[]')
            charlen = re.search('\(([\d,]+)\)', format_type)
            if charlen:
                charlen = charlen.group(1)
            kwargs = {}
            args = None

            if attype == 'numeric':
                if charlen:
                    prec, scale = charlen.split(',')
                    args = (int(prec), int(scale))
                else:
                    args = ()
            elif attype == 'double precision':
                args = (53, )
            elif attype == 'integer':
                args = ()
            elif attype in ('timestamp with time zone', 
                            'time with time zone'):
                kwargs['timezone'] = True
                if charlen:
                    kwargs['precision'] = int(charlen)
                args = ()
            elif attype in ('timestamp without time zone', 
                            'time without time zone', 'time'):
                kwargs['timezone'] = False
                if charlen:
                    kwargs['precision'] = int(charlen)
                args = ()
            elif attype == 'bit varying':
                kwargs['varying'] = True
                if charlen:
                    args = (int(charlen),)
                else:
                    args = ()
            elif attype in ('interval','interval year to month',
                                'interval day to second'):
                if charlen:
                    kwargs['precision'] = int(charlen)
                args = ()
            elif charlen:
                args = (int(charlen),)
            else:
                args = ()

            while True:
                if attype in self.ischema_names:
                    coltype = self.ischema_names[attype]
                    break
                elif attype in enums:
                    enum = enums[attype]
                    coltype = ENUM
                    if "." in attype:
                        kwargs['schema'], kwargs['name'] = attype.split('.')
                    else:
                        kwargs['name'] = attype
                    args = tuple(enum['labels'])
                    break
                elif attype in domains:
                    domain = domains[attype]
                    attype = domain['attype']
                    # A table can't override whether the domain is nullable.
                    nullable = domain['nullable']
                    if domain['default'] and not default:
                        # It can, however, override the default 
                        # value, but can't set it to null.
                        default = domain['default']
                    continue
                else:
                    coltype = None
                    break

            if coltype:
                coltype = coltype(*args, **kwargs)
                if is_array:
                    coltype = ARRAY(coltype)
            else:
                util.warn("Did not recognize type '%s' of column '%s'" %
                          (attype, name))
                coltype = sqltypes.NULLTYPE
            # adjust the default value
            autoincrement = False
            if default is not None:
                match = re.search(r"""(nextval\(')([^']+)('.*$)""", default)
                if match is not None:
                    autoincrement = True
                    # the default is related to a Sequence
                    sch = schema
                    if '.' not in match.group(2) and sch is not None:
                        # unconditionally quote the schema name.  this could
                        # later be enhanced to obey quoting rules / 
                        # "quote schema"
                        default = match.group(1) + \
                                    ('"%s"' % sch) + '.' + \
                                    match.group(2) + match.group(3)

            column_info = dict(name=name, type=coltype, nullable=nullable,
                               default=default, autoincrement=autoincrement)
            columns.append(column_info)
        return columns

    @reflection.cache
    def get_primary_keys(self, connection, table_name, schema=None, **kw):
        table_oid = self.get_table_oid(connection, table_name, schema,
                                       info_cache=kw.get('info_cache'))
        PK_SQL = """
          SELECT attname FROM pg_attribute
          WHERE attrelid = (
             SELECT indexrelid FROM pg_index i
             WHERE i.indrelid = :table_oid
             AND i.indisprimary = 't')
          ORDER BY attnum
        """
        t = sql.text(PK_SQL, typemap={'attname':sqltypes.Unicode})
        c = connection.execute(t, table_oid=table_oid)
        primary_keys = [r[0] for r in c.fetchall()]
        return primary_keys

    @reflection.cache
    def get_pk_constraint(self, connection, table_name, schema=None, **kw):
        cols = self.get_primary_keys(connection, table_name, 
                                            schema=schema, **kw)

        table_oid = self.get_table_oid(connection, table_name, schema,
                                       info_cache=kw.get('info_cache'))

        PK_CONS_SQL = """
        SELECT conname
           FROM  pg_catalog.pg_constraint r
           WHERE r.conrelid = :table_oid AND r.contype = 'p'
           ORDER BY 1
        """
        t = sql.text(PK_CONS_SQL, typemap={'conname':sqltypes.Unicode})
        c = connection.execute(t, table_oid=table_oid)
        name = c.scalar()
        return {
            'constrained_columns':cols,
            'name':name
        }

    @reflection.cache
    def get_foreign_keys(self, connection, table_name, schema=None, **kw):
        preparer = self.identifier_preparer
        table_oid = self.get_table_oid(connection, table_name, schema,
                                       info_cache=kw.get('info_cache'))
        FK_SQL = """
          SELECT conname, pg_catalog.pg_get_constraintdef(oid, true) as condef
          FROM  pg_catalog.pg_constraint r
          WHERE r.conrelid = :table AND r.contype = 'f'
          ORDER BY 1
        """

        t = sql.text(FK_SQL, typemap={
                                'conname':sqltypes.Unicode,
                                'condef':sqltypes.Unicode})
        c = connection.execute(t, table=table_oid)
        fkeys = []
        for conname, condef in c.fetchall():
            m = re.search('FOREIGN KEY \((.*?)\) REFERENCES '
                            '(?:(.*?)\.)?(.*?)\((.*?)\)', condef).groups()
            constrained_columns, referred_schema, \
                    referred_table, referred_columns = m
            constrained_columns = [preparer._unquote_identifier(x) 
                        for x in re.split(r'\s*,\s*', constrained_columns)]
            if referred_schema:
                referred_schema =\
                                preparer._unquote_identifier(referred_schema)
            elif schema is not None and schema == self.default_schema_name:
                # no schema (i.e. its the default schema), and the table we're
                # reflecting has the default schema explicit, then use that.
                # i.e. try to use the user's conventions
                referred_schema = schema
            referred_table = preparer._unquote_identifier(referred_table)
            referred_columns = [preparer._unquote_identifier(x) 
                        for x in re.split(r'\s*,\s', referred_columns)]
            fkey_d = {
                'name' : conname,
                'constrained_columns' : constrained_columns,
                'referred_schema' : referred_schema,
                'referred_table' : referred_table,
                'referred_columns' : referred_columns
            }
            fkeys.append(fkey_d)
        return fkeys

    @reflection.cache
    def get_indexes(self, connection, table_name, schema, **kw):
        table_oid = self.get_table_oid(connection, table_name, schema,
                                       info_cache=kw.get('info_cache'))

        IDX_SQL = """
          SELECT
              i.relname as relname,
              ix.indisunique, ix.indexprs, ix.indpred,
              a.attname
          FROM
              pg_class t 
                    join pg_index ix on t.oid = ix.indrelid
                    join pg_class i on i.oid=ix.indexrelid
                    left outer join 
                        pg_attribute a 
                        on t.oid=a.attrelid and a.attnum=ANY(ix.indkey)
          WHERE
              t.relkind = 'r'
              and t.oid = :table_oid
              and ix.indisprimary = 'f'
          ORDER BY
              t.relname,
              i.relname
        """

        t = sql.text(IDX_SQL, typemap={'attname':sqltypes.Unicode})
        c = connection.execute(t, table_oid=table_oid)

        index_names = {}
        indexes = []
        sv_idx_name = None
        for row in c.fetchall():
            idx_name, unique, expr, prd, col = row
            if expr:
                if idx_name != sv_idx_name:
                    util.warn(
                      "Skipped unsupported reflection of "
                      "expression-based index %s"
                      % idx_name)
                sv_idx_name = idx_name
                continue
            if prd and not idx_name == sv_idx_name:
                util.warn(
                   "Predicate of partial index %s ignored during reflection"
                   % idx_name)
                sv_idx_name = idx_name
            if idx_name in index_names:
                index_d = index_names[idx_name]
            else:
                index_d = {'column_names':[]}
                indexes.append(index_d)
                index_names[idx_name] = index_d
            index_d['name'] = idx_name
            if col is not None:
                index_d['column_names'].append(col)
            index_d['unique'] = unique
        return indexes

    def _load_enums(self, connection):
        if not self.supports_native_enum:
            return {}

        ## Load data types for enums:
        SQL_ENUMS = """
            SELECT t.typname as "name",
               -- no enum defaults in 8.4 at least
               -- t.typdefault as "default", 
               pg_catalog.pg_type_is_visible(t.oid) as "visible",
               n.nspname as "schema",
               e.enumlabel as "label"
            FROM pg_catalog.pg_type t
                 LEFT JOIN pg_catalog.pg_namespace n ON n.oid = t.typnamespace
                 LEFT JOIN pg_catalog.pg_constraint r ON t.oid = r.contypid
                 LEFT JOIN pg_catalog.pg_enum e ON t.oid = e.enumtypid
            WHERE t.typtype = 'e'
            ORDER BY "name", e.oid -- e.oid gives us label order
        """

        s = sql.text(SQL_ENUMS, typemap={
                                'attname':sqltypes.Unicode,
                                'label':sqltypes.Unicode})
        c = connection.execute(s)

        enums = {}
        for enum in c.fetchall():
            if enum['visible']:
                # 'visible' just means whether or not the enum is in a
                # schema that's on the search path -- or not overriden by
                # a schema with higher presedence. If it's not visible,
                # it will be prefixed with the schema-name when it's used.
                name = enum['name']
            else:
                name = "%s.%s" % (enum['schema'], enum['name'])

            if name in enums:
                enums[name]['labels'].append(enum['label'])
            else:
                enums[name] = {
                        'labels': [enum['label']],
                        }

        return enums

    def _load_domains(self, connection):
        ## Load data types for domains:
        SQL_DOMAINS = """
            SELECT t.typname as "name",
               pg_catalog.format_type(t.typbasetype, t.typtypmod) as "attype",
               not t.typnotnull as "nullable",
               t.typdefault as "default",
               pg_catalog.pg_type_is_visible(t.oid) as "visible",
               n.nspname as "schema"
            FROM pg_catalog.pg_type t
               LEFT JOIN pg_catalog.pg_namespace n ON n.oid = t.typnamespace
               LEFT JOIN pg_catalog.pg_constraint r ON t.oid = r.contypid
            WHERE t.typtype = 'd'
        """

        s = sql.text(SQL_DOMAINS, typemap={'attname':sqltypes.Unicode})
        c = connection.execute(s)

        domains = {}
        for domain in c.fetchall():
            ## strip (30) from character varying(30)
            attype = re.search('([^\(]+)', domain['attype']).group(1)
            if domain['visible']:
                # 'visible' just means whether or not the domain is in a
                # schema that's on the search path -- or not overriden by
                # a schema with higher presedence. If it's not visible,
                # it will be prefixed with the schema-name when it's used.
                name = domain['name']
            else:
                name = "%s.%s" % (domain['schema'], domain['name'])

            domains[name] = {
                    'attype':attype, 
                    'nullable': domain['nullable'], 
                    'default': domain['default']
                }

        return domains