Metadata-Version: 1.1
Name: stopit
Version: 1.1.2
Summary: Timeout control decorator and context managers, raise any exception in another thread
Home-page: http://pypi.python.org/pypi/stopit
Author: Gilles Lenfant
Author-email: gilles.lenfant@gmail.com
License: GPLv3
Description-Content-Type: UNKNOWN
Description: ======
        stopit
        ======
        
        Raise asynchronous exceptions in other threads, control the timeout of
        blocks or callables with two context managers and two decorators.
        
        .. attention:: API Changes
        
           Users of 1.0.0 should upgrade their source code:
        
           - ``stopit.Timeout`` is renamed ``stopit.ThreadingTimeout``
           - ``stopit.timeoutable`` is renamed ``stopit.threading_timeoutable``
        
           Explications follow below...
        
        .. contents::
        
        Overview
        ========
        
        This module provides:
        
        - a function that raises an exception in another thread, including the main
          thread.
        
        - two context managers that may stop its inner block activity on timeout.
        
        - two decorators that may stop its decorated callables on timeout.
        
        Developed and tested with CPython 2.6, 2.7, 3.3 and 3.4 on MacOSX. Should work
        on any OS (xBSD, Linux, Windows) except when explicitly mentioned.
        
        .. note::
        
           Signal based timeout controls, namely ``SignalTimeout`` context manager and
           ``signal_timeoutable`` decorator won't work in Windows that has no support
           for ``signal.SIGALRM``. Any help to work around this is welcome.
        
        Installation
        ============
        
        Using ``stopit`` in your application
        ------------------------------------
        
        Both work identically:
        
        .. code:: bash
        
          easy_install stopit
          pip install stopit
        
        Developing ``stopit``
        ---------------------
        
        .. code:: bash
        
          # You should prefer forking if you have a Github account
          git clone https://github.com/glenfant/stopit.git
          cd stopit
          python setup.py develop
        
          # Does it work for you ?
          python setup.py test
        
        Public API
        ==========
        
        Exception
        ---------
        
        ``stopit.TimeoutException``
        ...........................
        
        A ``stopit.TimeoutException`` may be raised in a timeout context manager
        controlled block.
        
        This exception may be propagated in your application at the end of execution
        of the context manager controlled block, see the ``swallow_ex`` parameter of
        the context managers.
        
        Note that the ``stopit.TimeoutException`` is always swallowed after the
        execution of functions decorated with ``xxx_timeoutable(...)``. Anyway, you
        may catch this exception **within** the decorated function.
        
        Threading based resources
        -------------------------
        
        .. warning::
        
           Threading based resources will only work with CPython implementations
           since we use CPython specific low level API. This excludes Iron Python,
           Jython, Pypy, ...
        
           Will not stop the execution of blocking Python atomic instructions that
           acquire the GIL. In example, if the destination thread is actually
           executing a ``time.sleep(20)``, the asynchronous exception is effective
           **after** its execution.
        
        ``stopit.async_raise``
        ......................
        
        A function that raises an arbitrary exception in another thread
        
        ``async_raise(tid, exception)``
        
        - ``tid`` is the thread identifier as provided by the ``ident`` attribute of a
          thread object. See the documentation of the ``threading`` module for further
          information.
        
        - ``exception`` is the exception class or object to raise in the thread.
        
        ``stopit.ThreadingTimeout``
        ...........................
        
        A context manager that "kills" its inner block execution that exceeds the
        provided time.
        
        ``ThreadingTimeout(seconds, swallow_exc=True)``
        
        - ``seconds`` is the number of seconds allowed to the execution of the context
          managed block.
        
        - ``swallow_exc`` : if ``False``, the possible ``stopit.TimeoutException`` will
          be re-raised when quitting the context managed block. **Attention**: a
          ``True`` value does not swallow other potential exceptions.
        
        **Methods and attributes**
        
        of a ``stopit.ThreadingTimeout`` context manager.
        
        .. list-table::
           :header-rows: 1
        
           * - Method / Attribute
             - Description
        
           * - ``.cancel()``
             - Cancels the timeout control. This method is intended for use within the
               block that's under timeout control, specifically to cancel the timeout
               control. Means that all code executed after this call may be executed
               till the end.
        
           * - ``.state``
             - This attribute indicated the actual status of the timeout control. It
               may take the value of the ``EXECUTED``, ``EXECUTING``, ``TIMED_OUT``,
               ``INTERRUPTED`` or ``CANCELED`` attributes. See below.
        
           * - ``.EXECUTING``
             - The timeout control is under execution. We are typically executing
               within the code under control of the context manager.
        
           * - ``.EXECUTED``
             - Good news: the code under timeout control completed normally within the
               assigned time frame.
        
           * - ``.TIMED_OUT``
             - Bad news: the code under timeout control has been sleeping too long.
               The objects supposed to be created or changed within the timeout
               controlled block should be considered as non existing or corrupted.
               Don't play with them otherwise informed.
        
           * - ``.INTERRUPTED``
             - The code under timeout control may itself raise explicit
               ``stopit.TimeoutException`` for any application logic reason that may
               occur. This intentional exit can be spotted from outside the timeout
               controlled block with this state value.
        
           * - ``.CANCELED``
             - The timeout control has been intentionally canceled and the code
               running under timeout control did complete normally. But perhaps after
               the assigned time frame.
        
        
        A typical usage:
        
        .. code:: python
        
           import stopit
           # ...
           with stopit.ThreadingTimeout(10) as to_ctx_mgr:
               assert to_ctx_mgr.state == to_ctx_mgr.EXECUTING
               # Something potentially very long but which
               # ...
        
           # OK, let's check what happened
           if to_ctx_mgr.state == to_ctx_mgr.EXECUTED:
               # All's fine, everything was executed within 10 seconds
           elif to_ctx_mgr.state == to_ctx_mgr.EXECUTING:
               # Hmm, that's not possible outside the block
           elif to_ctx_mgr.state == to_ctx_mgr.TIMED_OUT:
               # Eeek the 10 seconds timeout occurred while executing the block
           elif to_ctx_mgr.state == to_ctx_mgr.INTERRUPTED:
               # Oh you raised specifically the TimeoutException in the block
           elif to_ctx_mgr.state == to_ctx_mgr.CANCELED:
               # Oh you called to_ctx_mgr.cancel() method within the block but it
               # executed till the end
           else:
               # That's not possible
        
        Notice that the context manager object may be considered as a boolean
        indicating (if ``True``) that the block executed normally:
        
        .. code:: python
        
           if to_ctx_mgr:
               # Yes, the code under timeout control completed
               # Objects it created or changed may be considered consistent
        
        ``stopit.threading_timeoutable``
        ................................
        
        A decorator that kills the function or method it decorates, if it does not
        return within a given time frame.
        
        ``stopit.threading_timeoutable([default [, timeout_param]])``
        
        - ``default`` is the value to be returned by the decorated function or method of
          when its execution timed out, to notify the caller code that the function
          did not complete within the assigned time frame.
        
          If this parameter is not provided, the decorated function or method will
          return a ``None`` value when its execution times out.
        
          .. code:: python
        
             @stopit.threading_timeoutable(default='not finished')
             def infinite_loop():
                 # As its name says...
        
             result = infinite_loop(timeout=5)
             assert result == 'not finished'
        
        - ``timeout_param``: The function or method you have decorated may require a
          ``timeout`` named parameter for whatever reason. This empowers you to change
          the name of the ``timeout`` parameter in the decorated function signature to
          whatever suits, and prevent a potential naming conflict.
        
          .. code:: python
        
             @stopit.threading_timeoutable(timeout_param='my_timeout')
             def some_slow_function(a, b, timeout='whatever'):
                 # As its name says...
        
             result = some_slow_function(1, 2, timeout="something", my_timeout=2)
        
        
        About the decorated function
        ............................
        
        or method...
        
        As you noticed above, you just need to add the ``timeout`` parameter when
        calling the function or method. Or whatever other name for this you chose with
        the ``timeout_param`` of the decorator. When calling the real inner function
        or method, this parameter is removed.
        
        
        Signaling based resources
        -------------------------
        
        .. warning::
        
           Using signaling based resources will **not** work under Windows or any OS
           that's not based on Unix.
        
        ``stopit.SignalTimeout`` and ``stopit.signal_timeoutable`` have exactly the
        same API as their respective threading based resources, namely
        `stopit.ThreadingTimeout`_ and `stopit.threading_timeoutable`_.
        
        See the `comparison chart`_ that warns on the more or less subtle differences
        between the `Threading based resources`_ and the `Signaling based resources`_.
        
        Logging
        -------
        
        The ``stopit`` named logger emits a warning each time a block of code
        execution exceeds the associated timeout. To turn logging off, just:
        
        .. code:: python
        
           import logging
           stopit_logger = logging.getLogger('stopit')
           stopit_logger.seLevel(logging.ERROR)
        
        .. _comparison chart:
        
        Comparing thread based and signal based timeout control
        -------------------------------------------------------
        
        .. list-table::
           :header-rows: 1
        
           * - Feature
             - Threading based resources
             - Signaling based resources
        
           * - GIL
             - Can't interrupt a long Python atomic instruction. e.g. if
               ``time.sleep(20.0)`` is actually executing, the timeout will take
               effect at the end of the execution of this line.
             - Don't care of it
        
           * - Thread safety
             - **Yes** : Thread safe as long as each thread uses its own ``ThreadingTimeout``
               context manager or ``threading_timeoutable`` decorator.
             - **Not** thread safe. Could yield unpredictable results in a
               multithreads application.
        
           * - Nestable context managers
             - **Yes** : you can nest threading based context managers
             - **No** : never nest a signaling based context manager in another one.
               The innermost context manager will automatically cancel the timeout
               control of outer ones.
        
           * - Accuracy
             - Any positive floating value is accepted as timeout value. The accuracy
               depends on the GIL interval checking of your platform. See the doc on
               ``sys.getcheckinterval`` and ``sys.setcheckinterval`` for your Python
               version.
             - Due to the use of ``signal.SIGALRM``, we need provide an integer number
               of seconds. So a timeout of ``0.6`` seconds will ve automatically
               converted into a timeout of zero second!
        
           * - Supported platforms
             - Any CPython 2.6, 2.7 or 3.3 on any OS with threading support.
             - Any Python 2.6, 2.7 or 3.3 with ``signal.SIGALRM`` support. This
               excludes Windows boxes
        
        Known issues
        ============
        
        Timeout accuracy
        ----------------
        
        **Important**: the way CPython supports threading and asynchronous features has
        impacts on the accuracy of the timeout. In other words, if you assign a 2.0
        seconds timeout to a context managed block or a decorated callable, the
        effective code block / callable execution interruption may occur some
        fractions of seconds after this assigned timeout.
        
        For more background about this issue - that cannot be fixed - please read
        Python gurus thoughts about Python threading, the GIL and context switching
        like these ones:
        
        - http://pymotw.com/2/threading/
        - https://wiki.python.org/moin/GlobalInterpreterLock
        
        This is the reason why I am more "tolerant" on timeout accuracy in the tests
        you can read thereafter than I should be for a critical real-time application
        (that's not in the scope of Python).
        
        It is anyway possible to improve this accuracy at the expense of the global
        performances decreasing the check interval which defaults to 100. See:
        
        - https://docs.python.org/2.7/library/sys.html#sys.getcheckinterval
        - https://docs.python.org/2.7/library/sys.html#sys.getcheckinterval
        
        If this is a real issue for users (want a precise timeout and not an
        approximative one), a future release will add the optional ``check_interval``
        parameter to the context managers and decorators. This parameter will enable
        to lower temporarily the threads switching check interval, having a more
        accurate timeout at the expense of the overall performances while the context
        managed block or decorated functions are executing.
        
        ``gevent`` support
        ------------------
        
        Threading timeout control as mentioned in `Threading based resources`_ does not work as expected
        when used in the context of a gevent worker.
        
        See the discussion in `Issue 13 <https://github.com/glenfant/stopit/issues/13>`_ for more details.
        
        Tests and demos
        ===============
        
        .. code:: pycon
        
           >>> import threading
           >>> from stopit import async_raise, TimeoutException
        
        In a real application, you should either use threading based timeout resources:
        
        .. code:: pycon
        
           >>> from stopit import ThreadingTimeout as Timeout, threading_timeoutable as timeoutable  #doctest: +SKIP
        
        Or the POSIX signal based resources:
        
        .. code:: pycon
        
           >>> from stopit import SignalTimeout as Timeout, signal_timeoutable as timeoutable  #doctest: +SKIP
        
        Let's define some utilities:
        
        .. code:: pycon
        
           >>> import time
           >>> def fast_func():
           ...     return 0
           >>> def variable_duration_func(duration):
           ...     t0 = time.time()
           ...     while True:
           ...         dummy = 0
           ...         if time.time() - t0 > duration:
           ...             break
           >>> exc_traces = []
           >>> def variable_duration_func_handling_exc(duration, exc_traces):
           ...     try:
           ...         t0 = time.time()
           ...         while True:
           ...             dummy = 0
           ...             if time.time() - t0 > duration:
           ...                 break
           ...     except Exception as exc:
           ...         exc_traces.append(exc)
           >>> def func_with_exception():
           ...     raise LookupError()
        
        ``async_raise`` function raises an exception in another thread
        --------------------------------------------------------------
        
        Testing ``async_raise()`` with a thread of 5 seconds:
        
        .. code:: pycon
        
           >>> five_seconds_threads = threading.Thread(
           ...     target=variable_duration_func_handling_exc, args=(5.0, exc_traces))
           >>> start_time = time.time()
           >>> five_seconds_threads.start()
           >>> thread_ident = five_seconds_threads.ident
           >>> five_seconds_threads.is_alive()
           True
        
        We raise a LookupError in that thread:
        
        .. code:: pycon
        
           >>> async_raise(thread_ident, LookupError)
        
        Okay but we must wait few milliseconds the thread death since the exception is
        asynchronous:
        
        .. code:: pycon
        
           >>> while five_seconds_threads.is_alive():
           ...     pass
        
        And we can notice that we stopped the thread before it stopped by itself:
        
        .. code:: pycon
        
           >>> time.time() - start_time < 0.5
           True
           >>> len(exc_traces)
           1
           >>> exc_traces[-1].__class__.__name__
           'LookupError'
        
        ``Timeout`` context manager
        ---------------------------
        
        The context manager stops the execution of its inner block after a given time.
        You may manage the way the timeout occurs using a ``try: ... except: ...``
        construct or by inspecting the context manager ``state`` attribute after the
        block.
        
        Swallowing Timeout exceptions
        .............................
        
        We check that the fast functions return as outside our context manager:
        
        .. code:: pycon
        
           >>> with Timeout(5.0) as timeout_ctx:
           ...     result = fast_func()
           >>> result
           0
           >>> timeout_ctx.state == timeout_ctx.EXECUTED
           True
        
        And the context manager is considered as ``True`` (the block executed its last
        line):
        
        .. code:: pycon
        
           >>> bool(timeout_ctx)
           True
        
        We check that slow functions are interrupted:
        
        .. code:: pycon
        
           >>> start_time = time.time()
           >>> with Timeout(2.0) as timeout_ctx:
           ...     variable_duration_func(5.0)
           >>> time.time() - start_time < 2.2
           True
           >>> timeout_ctx.state == timeout_ctx.TIMED_OUT
           True
        
        And the context manager is considered as ``False`` since the block did timeout.
        
        .. code:: pycon
        
           >>> bool(timeout_ctx)
           False
        
        Other exceptions are propagated and must be treated as usual:
        
        .. code:: pycon
        
           >>> try:
           ...     with Timeout(5.0) as timeout_ctx:
           ...         result = func_with_exception()
           ... except LookupError:
           ...     result = 'exception_seen'
           >>> timeout_ctx.state == timeout_ctx.EXECUTING
           True
           >>> result
           'exception_seen'
        
        Propagating ``TimeoutException``
        ................................
        
        We can choose to propagate the ``TimeoutException`` too. Potential exceptions
        have to be handled:
        
        .. code:: pycon
        
           >>> result = None
           >>> start_time = time.time()
           >>> try:
           ...     with Timeout(2.0, swallow_exc=False) as timeout_ctx:
           ...         variable_duration_func(5.0)
           ... except TimeoutException:
           ...     result = 'exception_seen'
           >>> time.time() - start_time < 2.2
           True
           >>> result
           'exception_seen'
           >>> timeout_ctx.state == timeout_ctx.TIMED_OUT
           True
        
        Other exceptions must be handled too:
        
        .. code:: pycon
        
           >>> result = None
           >>> start_time = time.time()
           >>> try:
           ...     with Timeout(2.0, swallow_exc=False) as timeout_ctx:
           ...         func_with_exception()
           ... except Exception:
           ...     result = 'exception_seen'
           >>> time.time() - start_time < 0.1
           True
           >>> result
           'exception_seen'
           >>> timeout_ctx.state == timeout_ctx.EXECUTING
           True
        
        ``timeoutable`` callable decorator
        ----------------------------------
        
        This decorator stops the execution of any callable that should not last a
        certain amount of time.
        
        You may use a decorated callable without timeout control if you don't provide
        the ``timeout`` optional argument:
        
        .. code:: pycon
        
           >>> @timeoutable()
           ... def fast_double(value):
           ...     return value * 2
           >>> fast_double(3)
           6
        
        You may specify that timeout with the ``timeout`` optional argument.
        Interrupted callables return None:
        
        .. code:: pycon
        
           >>> @timeoutable()
           ... def infinite():
           ...     while True:
           ...         pass
           ...     return 'whatever'
           >>> infinite(timeout=1) is None
           True
        
        Or any other value provided to the ``timeoutable`` decorator parameter:
        
        .. code:: pycon
        
           >>> @timeoutable('unexpected')
           ... def infinite():
           ...     while True:
           ...         pass
           ...     return 'whatever'
           >>> infinite(timeout=1)
           'unexpected'
        
        If the ``timeout`` parameter name may clash with your callable signature, you
        may change it using ``timeout_param``:
        
        .. code:: pycon
        
           >>> @timeoutable('unexpected', timeout_param='my_timeout')
           ... def infinite():
           ...     while True:
           ...         pass
           ...     return 'whatever'
           >>> infinite(my_timeout=1)
           'unexpected'
        
        It works on instance methods too:
        
        .. code:: pycon
        
           >>> class Anything(object):
           ...     @timeoutable('unexpected')
           ...     def infinite(self, value):
           ...         assert type(value) is int
           ...         while True:
           ...             pass
           >>> obj = Anything()
           >>> obj.infinite(2, timeout=1)
           'unexpected'
        
        Links
        =====
        
        Source code (clone, fork, ...)
          https://github.com/glenfant/stopit
        
        Issues tracker
          https://github.com/glenfant/stopit/issues
        
        PyPI
          https://pypi.python.org/pypi/stopit
        
        Credits
        =======
        
        - This is a NIH package which is mainly a theft of `Gabriel Ahtune's recipe
          <http://gahtune.blogspot.fr/2013/08/a-timeout-context-manager.html>`_ with
          tests, minor improvements and refactorings, documentation and setuptools
          awareness I made since I'm somehow tired to copy/paste this recipe among
          projects that need timeout control.
        
        - `Gilles Lenfant <gilles.lenfant@gmail.com>`_: package creator and
          maintainer.
        
        License
        =======
        
        This software is open source delivered under the terms of the MIT license. See the ``LICENSE`` file of this repository.
        
        Changes log
        ===========
        
        1.1.2 - 2018-02-09
        ------------------
        
        * Changed license to MIT
        * Tested with Python 3.5 and 3.6
        
        1.1.1 - 2015-03-22
        ------------------
        
        * Fixed bug of timeout context manager as bool under Python 2.x
        * Tested with Python 3.4
        
        1.1.0 - 2014-05-02
        ------------------
        
        * Added support for TIMER signal based timeout control (Posix OS only)
        * API changes due to new timeout controls
        * An exhaustive documentation.
        
        1.0.0 - 2014-02-09
        ------------------
        
        Initial version
Keywords: threads timeout
Platform: UNKNOWN
Classifier: Topic :: Utilities
Classifier: Programming Language :: Python
Classifier: Programming Language :: Python :: Implementation :: CPython
Classifier: Programming Language :: Python :: 2.6
Classifier: Programming Language :: Python :: 2.7
Classifier: Programming Language :: Python :: 3.3
Classifier: Programming Language :: Python :: 3.4
Classifier: Programming Language :: Python :: 3.5
Classifier: Programming Language :: Python :: 3.6
Classifier: Operating System :: OS Independent
Classifier: License :: OSI Approved :: MIT License
Classifier: Intended Audience :: Developers
Classifier: Development Status :: 5 - Production/Stable
