python/src/Doc/library/contextlib.rst - toolchain/benchmark - Git at Google

 :mod:`contextlib` --- Utilities for :keyword:`with`\ -statement contexts
 ========================================================================

 .. module:: contextlib
    :synopsis: Utilities for with-statement contexts.


 .. versionadded:: 2.5

 This module provides utilities for common tasks involving the :keyword:`with`
 statement. For more information see also :ref:`typecontextmanager` and
 :ref:`context-managers`.

 Functions provided:


 .. function:: contextmanager(func)

    This function is a :term:`decorator` that can be used to define a factory
    function for :keyword:`with` statement context managers, without needing to
    create a class or separate :meth:`__enter__` and :meth:`__exit__` methods.

    A simple example (this is not recommended as a real way of generating HTML!)::

       from contextlib import contextmanager

       @contextmanager
       def tag(name):
           print "<%s>" % name
           yield
           print "</%s>" % name

       >>> with tag("h1"):
       ...    print "foo"
       ...
       <h1>
       foo
       </h1>

    The function being decorated must return a :term:`generator`-iterator when
    called. This iterator must yield exactly one value, which will be bound to
    the targets in the :keyword:`with` statement's :keyword:`as` clause, if any.

    At the point where the generator yields, the block nested in the :keyword:`with`
    statement is executed.  The generator is then resumed after the block is exited.
    If an unhandled exception occurs in the block, it is reraised inside the
    generator at the point where the yield occurred.  Thus, you can use a
    :keyword:`try`...\ :keyword:`except`...\ :keyword:`finally` statement to trap
    the error (if any), or ensure that some cleanup takes place. If an exception is
    trapped merely in order to log it or to perform some action (rather than to
    suppress it entirely), the generator must reraise that exception. Otherwise the
    generator context manager will indicate to the :keyword:`with` statement that
    the exception has been handled, and execution will resume with the statement
    immediately following the :keyword:`with` statement.


 .. function:: nested(mgr1[, mgr2[, ...]])

    Combine multiple context managers into a single nested context manager.

    Code like this::

       from contextlib import nested

       with nested(A(), B(), C()) as (X, Y, Z):
           do_something()

    is equivalent to this::

       m1, m2, m3 = A(), B(), C()
       with m1 as X:
           with m2 as Y:
               with m3 as Z:
                   do_something()

    Note that if the :meth:`__exit__` method of one of the nested context managers
    indicates an exception should be suppressed, no exception information will be
    passed to any remaining outer context managers. Similarly, if the
    :meth:`__exit__` method of one of the nested managers raises an exception, any
    previous exception state will be lost; the new exception will be passed to the
    :meth:`__exit__` methods of any remaining outer context managers. In general,
    :meth:`__exit__` methods should avoid raising exceptions, and in particular they
    should not re-raise a passed-in exception.


 .. function:: closing(thing)

    Return a context manager that closes *thing* upon completion of the block.  This
    is basically equivalent to::

       from contextlib import contextmanager

       @contextmanager
       def closing(thing):
           try:
               yield thing
           finally:
               thing.close()

    And lets you write code like this::

       from contextlib import closing
       import urllib

       with closing(urllib.urlopen('http://www.python.org')) as page:
           for line in page:
               print line

    without needing to explicitly close ``page``.  Even if an error occurs,
    ``page.close()`` will be called when the :keyword:`with` block is exited.


 .. seealso::

    :pep:`0343` - The "with" statement
       The specification, background, and examples for the Python :keyword:`with`
       statement.
	:mod:`contextlib` --- Utilities for :keyword:`with`\ -statement contexts
	========================================================================

	.. module:: contextlib
	:synopsis: Utilities for with-statement contexts.


	.. versionadded:: 2.5

	This module provides utilities for common tasks involving the :keyword:`with`
	statement. For more information see also :ref:`typecontextmanager` and
	:ref:`context-managers`.

	Functions provided:


	.. function:: contextmanager(func)

	This function is a :term:`decorator` that can be used to define a factory
	function for :keyword:`with` statement context managers, without needing to
	create a class or separate :meth:`__enter__` and :meth:`__exit__` methods.

	A simple example (this is not recommended as a real way of generating HTML!)::

	from contextlib import contextmanager

	@contextmanager
	def tag(name):
	print "<%s>" % name
	yield
	print "</%s>" % name

	>>> with tag("h1"):
	... print "foo"
	...
	<h1>
	foo
	</h1>

	The function being decorated must return a :term:`generator`-iterator when
	called. This iterator must yield exactly one value, which will be bound to
	the targets in the :keyword:`with` statement's :keyword:`as` clause, if any.

	At the point where the generator yields, the block nested in the :keyword:`with`
	statement is executed. The generator is then resumed after the block is exited.
	If an unhandled exception occurs in the block, it is reraised inside the
	generator at the point where the yield occurred. Thus, you can use a
	:keyword:`try`...\ :keyword:`except`...\ :keyword:`finally` statement to trap
	the error (if any), or ensure that some cleanup takes place. If an exception is
	trapped merely in order to log it or to perform some action (rather than to
	suppress it entirely), the generator must reraise that exception. Otherwise the
	generator context manager will indicate to the :keyword:`with` statement that
	the exception has been handled, and execution will resume with the statement
	immediately following the :keyword:`with` statement.


	.. function:: nested(mgr1[, mgr2[, ...]])

	Combine multiple context managers into a single nested context manager.

	Code like this::

	from contextlib import nested

	with nested(A(), B(), C()) as (X, Y, Z):
	do_something()

	is equivalent to this::

	m1, m2, m3 = A(), B(), C()
	with m1 as X:
	with m2 as Y:
	with m3 as Z:
	do_something()

	Note that if the :meth:`__exit__` method of one of the nested context managers
	indicates an exception should be suppressed, no exception information will be
	passed to any remaining outer context managers. Similarly, if the
	:meth:`__exit__` method of one of the nested managers raises an exception, any
	previous exception state will be lost; the new exception will be passed to the
	:meth:`__exit__` methods of any remaining outer context managers. In general,
	:meth:`__exit__` methods should avoid raising exceptions, and in particular they
	should not re-raise a passed-in exception.


	.. function:: closing(thing)

	Return a context manager that closes thing upon completion of the block. This
	is basically equivalent to::

	from contextlib import contextmanager

	@contextmanager
	def closing(thing):
	try:
	yield thing
	finally:
	thing.close()

	And lets you write code like this::

	from contextlib import closing
	import urllib

	with closing(urllib.urlopen('http://www.python.org')) as page:
	for line in page:
	print line

	without needing to explicitly close ``page``. Even if an error occurs,
	``page.close()`` will be called when the :keyword:`with` block is exited.


	.. seealso::

	:pep:`0343` - The "with" statement
	The specification, background, and examples for the Python :keyword:`with`
	statement.