psycopg2/doc/src/extensions.rst

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`psycopg2.extensions` -- Extensions to the DB API
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======================================================
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.. sectionauthor:: Daniele Varrazzo <daniele.varrazzo@gmail.com>
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.. module:: psycopg2.extensions
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.. testsetup:: *
from psycopg2.extensions import AsIs, Binary, QuotedString, ISOLATION_LEVEL_AUTOCOMMIT
The module contains a few objects and function extending the minimum set of
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functionalities defined by the |DBAPI|_.
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.. class:: connection
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Is the class usually returned by the `~psycopg2.connect()` function.
It is exposed by the `extensions` module in order to allow
subclassing to extend its behaviour: the subclass should be passed to the
`!connect()` function using the `connection_factory` parameter.
See also :ref:`subclassing-connection`.
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For a complete description of the class, see `connection`.
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.. class:: cursor
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It is the class usually returnded by the `connection.cursor()`
method. It is exposed by the `extensions` module in order to allow
subclassing to extend its behaviour: the subclass should be passed to the
`!cursor()` method using the `cursor_factory` parameter. See
also :ref:`subclassing-cursor`.
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For a complete description of the class, see `cursor`.
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.. class:: lobject(conn [, oid [, mode [, new_oid [, new_file ]]]])
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Wrapper for a PostgreSQL large object. See :ref:`large-objects` for an
overview.
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The class can be subclassed: see the `connection.lobject()` to know
how to specify a `!lobject` subclass.
.. versionadded:: 2.0.8
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.. attribute:: oid
Database OID of the object.
.. attribute:: mode
The mode the database was open (``r``, ``w``, ``rw`` or ``n``).
.. method:: read(bytes=-1)
Read a chunk of data from the current file position. If -1 (default)
read all the remaining data.
.. method:: write(str)
Write a string to the large object. Return the number of bytes
written.
.. method:: export(file_name)
Export the large object content to the file system.
The method uses the efficient |lo_export|_ libpq function.
.. |lo_export| replace:: `!lo_export()`
.. _lo_export: http://www.postgresql.org/docs/8.4/static/lo-interfaces.html#AEN36330
.. method:: seek(offset, whence=0)
Set the lobject current position.
.. method:: tell()
Return the lobject current position.
.. method:: truncate(len=0)
.. versionadded:: 2.0.15
Truncate the lobject to the given size.
The method will only be available if psycopg has been built against libpq
from PostgreSQL 8.3 or later and can only be used with PostgreSQL servers
running these versions. It uses the |lo_truncate|_ libpq function.
.. |lo_truncate| replace:: `!lo_truncate()`
.. _lo_truncate: http://www.postgresql.org/docs/8.4/static/lo-interfaces.html#AEN36420
.. method:: close()
Close the object.
.. attribute:: closed
Boolean attribute specifying if the object is closed.
.. method:: unlink()
Close the object and remove it from the database.
.. _sql-adaptation-objects:
SQL adaptation protocol objects
-------------------------------
Psycopg provides a flexible system to adapt Python objects to the SQL syntax
(inspired to the :pep:`246`), allowing serialization in PostgreSQL. See
:ref:`adapting-new-types` for a detailed description. The following objects
deal with Python objects adaptation:
.. function:: adapt(obj)
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Return the SQL representation of *obj* as a string. Raise a
`~psycopg2.ProgrammingError` if how to adapt the object is unknown.
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In order to allow new objects to be adapted, register a new adapter for it
using the `register_adapter()` function.
The function is the entry point of the adaptation mechanism: it can be
used to write adapters for complex objects by recursively calling
`!adapt()` on its components.
.. function:: register_adapter(class, adapter)
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Register a new adapter for the objects of class *class*.
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*adapter* should be a function taking a single argument (the object
to adapt) and returning an object conforming the `ISQLQuote`
protocol (e.g. exposing a `!getquoted()` method). The `AsIs` is
often useful for this task.
Once an object is registered, it can be safely used in SQL queries and by
the `adapt()` function.
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.. class:: ISQLQuote(wrapped_object)
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Represents the SQL adaptation protocol. Objects conforming this protocol
should implement a `!getquoted()` method.
Adapters may subclass `!ISQLQuote`, but is not necessary: it is
enough to expose a `!getquoted()` method to be conforming.
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.. attribute:: _wrapped
The wrapped object passes to the constructor
.. method:: getquoted()
Subclasses or other conforming objects should return a valid SQL
string representing the wrapped object. The `!ISQLQuote`
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implementation does nothing.
.. class:: AsIs
Adapter conform to the `ISQLQuote` protocol useful for objects
whose string representation is already valid as SQL representation.
.. method:: getquoted()
Return the `str()` conversion of the wrapped object.
>>> AsIs(42).getquoted()
'42'
.. class:: QuotedString
Adapter conform to the `ISQLQuote` protocol for string-like
objects.
.. method:: getquoted()
Return the string enclosed in single quotes. Any single quote
appearing in the the string is escaped by doubling it according to SQL
string constants syntax. Backslashes are escaped too.
>>> QuotedString(r"O'Reilly").getquoted()
"'O''Reilly'"
.. class:: Binary
Adapter conform to the `ISQLQuote` protocol for binary objects.
.. method:: getquoted()
Return the string enclosed in single quotes. It performs the same
escaping of the `QuotedString` adapter, plus it knows how to
escape non-printable chars.
>>> Binary("\x00\x08\x0F").getquoted()
"'\\\\000\\\\010\\\\017'"
.. versionchanged:: 2.0.14
previously the adapter was not exposed by the `extensions`
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module. In older version it can be imported from the implementation
module `!psycopg2._psycopg`.
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.. class:: Boolean
Float
SQL_IN
Specialized adapters for builtin objects.
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.. class:: DateFromPy
TimeFromPy
TimestampFromPy
IntervalFromPy
Specialized adapters for Python datetime objects.
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.. class:: DateFromMx
TimeFromMx
TimestampFromMx
IntervalFromMx
Specialized adapters for `mx.DateTime`_ objects.
.. data:: adapters
Dictionary of the currently registered object adapters. Use
`register_adapter()` to add an adapter for a new type.
Database types casting functions
--------------------------------
These functions are used to manipulate type casters to convert from PostgreSQL
types to Python objects. See :ref:`type-casting-from-sql-to-python` for
details.
.. function:: new_type(oids, name, adapter)
Create a new type caster to convert from a PostgreSQL type to a Python
object. The created object must be registered using
`register_type()` to be used.
:param oids: tuple of OIDs of the PostgreSQL type to convert.
:param name: the name of the new type adapter.
:param adapter: the adaptation function.
The object OID can be read from the `cursor.description` attribute
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or by querying from the PostgreSQL catalog.
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*adapter* should have signature :samp:`fun({value}, {cur})` where
*value* is the string representation returned by PostgreSQL and
*cur* is the cursor from which data are read. In case of
:sql:`NULL`, *value* will be ``None``. The adapter should return the
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converted object.
See :ref:`type-casting-from-sql-to-python` for an usage example.
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.. function:: register_type(obj [, scope])
Register a type caster created using `new_type()`.
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If *scope* is specified, it should be a `connection` or a
`cursor`: the type caster will be effective only limited to the
specified object. Otherwise it will be globally registered.
.. data:: string_types
The global register of type casters.
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.. index::
single: Encoding; Mapping
.. data:: encodings
Mapping from `PostgreSQL encoding`__ names to `Python codec`__ names.
Used by Psycopg when adapting or casting unicode strings. See
:ref:`unicode-handling`.
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.. __: http://www.postgresql.org/docs/8.4/static/multibyte.html
.. __: http://docs.python.org/library/codecs.html#standard-encodings
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.. index::
single: Exceptions; Additional
Additional exceptions
---------------------
The module exports a few exceptions in addition to the :ref:`standard ones
<dbapi-exceptions>` defined by the |DBAPI|_.
.. exception:: QueryCanceledError
(subclasses `~psycopg2.OperationalError`)
Error related to SQL query cancelation. It can be trapped specifically to
detect a timeout.
.. versionadded:: 2.0.7
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.. exception:: TransactionRollbackError
(subclasses `~psycopg2.OperationalError`)
Error causing transaction rollback (deadlocks, serialisation failures,
etc). It can be trapped specifically to detect a deadlock.
.. versionadded:: 2.0.7
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.. index::
pair: Isolation level; Constants
.. _isolation-level-constants:
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Isolation level constants
-------------------------
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Psycopg2 `connection` objects hold informations about the PostgreSQL
`transaction isolation level`_. The current transaction level can be read
from the `~connection.isolation_level` attribute. The default isolation
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level is :sql:`READ COMMITTED`. A different isolation level con be set
through the `~connection.set_isolation_level()` method. The level can be
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set to one of the following constants:
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.. data:: ISOLATION_LEVEL_AUTOCOMMIT
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No transaction is started when command are issued and no
`~connection.commit()` or `~connection.rollback()` is required.
Some PostgreSQL command such as :sql:`CREATE DATABASE` or :sql:`VACUUM`
can't run into a transaction: to run such command use::
>>> conn.set_isolation_level(ISOLATION_LEVEL_AUTOCOMMIT)
See also :ref:`transactions-control`.
.. data:: ISOLATION_LEVEL_READ_UNCOMMITTED
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The :sql:`READ UNCOMMITTED` isolation level is defined in the SQL standard
but not available in the |MVCC| model of PostgreSQL: it is replaced by the
stricter :sql:`READ COMMITTED`.
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.. data:: ISOLATION_LEVEL_READ_COMMITTED
This is the default value. A new transaction is started at the first
`~cursor.execute()` command on a cursor and at each new
`!execute()` after a `~connection.commit()` or a
`~connection.rollback()`. The transaction runs in the PostgreSQL
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:sql:`READ COMMITTED` isolation level.
.. data:: ISOLATION_LEVEL_REPEATABLE_READ
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The :sql:`REPEATABLE READ` isolation level is defined in the SQL standard
but not available in the |MVCC| model of PostgreSQL: it is replaced by the
stricter :sql:`SERIALIZABLE`.
.. data:: ISOLATION_LEVEL_SERIALIZABLE
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Transactions are run at a :sql:`SERIALIZABLE` isolation level. This is the
strictest transactions isolation level, equivalent to having the
transactions executed serially rather than concurrently. However
applications using this level must be prepared to retry reansactions due
to serialization failures. See `serializable isolation level`_ in
PostgreSQL documentation.
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.. index::
pair: Transaction status; Constants
.. _transaction-status-constants:
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Transaction status constants
----------------------------
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These values represent the possible status of a transaction: the current value
can be read using the `connection.get_transaction_status()` method.
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.. data:: TRANSACTION_STATUS_IDLE
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The session is idle and there is no current transaction.
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.. data:: TRANSACTION_STATUS_ACTIVE
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A command is currently in progress.
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.. data:: TRANSACTION_STATUS_INTRANS
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The session is idle in a valid transaction block.
.. data:: TRANSACTION_STATUS_INERROR
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The session is idle in a failed transaction block.
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.. data:: TRANSACTION_STATUS_UNKNOWN
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Reported if the connection with the server is bad.
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.. index::
pair: Connection status; Constants
.. _connection-status-constants:
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Connection status constants
---------------------------
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These values represent the possible status of a connection: the current value
can be read from the `~connection.status` attribute.
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.. data:: STATUS_SETUP
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Used internally.
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.. data:: STATUS_READY
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Connection established.
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.. data:: STATUS_BEGIN
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Connection established. A transaction is in progress.
.. data:: STATUS_IN_TRANSACTION
An alias for `STATUS_BEGIN`
.. data:: STATUS_SYNC
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Used internally.
.. data:: STATUS_ASYNC
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Used internally.
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Additional database types
-------------------------
The `!extensions` module includes typecasters for many standard
PostgreSQL types. These objects allow the conversion of returned data into
Python objects. All the typecasters are automatically registered, except
`UNICODE` and `UNICODEARRAY`: you can register them using
`register_type()` in order to receive Unicode objects instead of strings
from the database. See :ref:`unicode-handling` for details.
.. data:: BINARYARRAY
BOOLEAN
BOOLEANARRAY
DATE
DATEARRAY
DATETIMEARRAY
DECIMALARRAY
FLOAT
FLOATARRAY
INTEGER
INTEGERARRAY
INTERVAL
INTERVALARRAY
LONGINTEGER
LONGINTEGERARRAY
ROWIDARRAY
STRINGARRAY
TIME
TIMEARRAY
UNICODE
UNICODEARRAY