Metadata-Version: 1.1
Name: functastic
Version: 1.1
Summary: threadable task retry module
Home-page: https://github.com/tr3buchet/functastic
Author: Trey Morris
Author-email: trey@treymorris.com
License: Apache Software License
Description: functastic - retry all the tasks you need
        =========================================
        
        functastic is used to manage tasks that you would like to retry until a
        success condition is met, or potentially forever. it can be run single
        threaded or in a separate thread. task start times, success conditions,
        retry attempts, retry interval, and time interval back off can be
        configured. it's important to note that all tasks are run in a single
        thread one after the other, so if you have a longer running task it may
        delay the actual start time of the task or tasks behind it in line. with
        this in mind, functastic works better with quick tasks for now. I'd like
        to have it spawn tasks as side threads in the future, but I didn't want
        to require the usage of any particular threading library at present.
        
        functastic provides two classes: ``TaskHeap`` and ``Task``. ``Tasks``
        wrap a function and are appended to the ``TaskHeap`` which provides a
        ``run()`` function handle running/scheduling/retrying the ``Tasks``
        until the success condition is met. ``Task's`` default success condition
        is that the function does not raise any Exception and returns any non
        ``None`` value.
        
        a ``Task`` object can never raise an exception. calling a task either
        manually or using a ``TaskHeap`` will log exceptions and potentially use
        them to determine success, but they won't be raised. the one exception
        to this rule is if your custom ``success_condition`` function raises an
        exception, so be careful writing them.
        
        install
        -------
        
        ``pip install functastic`` or clone the repo and
        ``python setup.py install`` or ``pip install -e`` if you want to play
        with the code
        
        ``Task`` usage
        --------------
        
        the basic task is a wrapped function that has some attributes for
        determining success and when a function should be run. The configurable
        traits for a task include:
        
        -  ``func``, the function to be run
        -  ``args``, list of args to pass to the function
        -  ``kwargs``, dictionary of keyword args to pass to the function
        -  ``attempts``, number of times to retry (set to 0 means until success)
        -  ``task_timeout``, the number of seconds the function may be retried
        -  ``delay``, the time in between each run of the function (modified by
           backoff)
        -  ``backoff``, delay multiplier, extends the delay exponentially each
           iteration. ``backoff = 1`` is standard interval, ``backoff = 2``
           doubles the time in between each retry
        -  ``start_time``, the timestamp at which the function will be run the
           first time ex ``time.time() + 30`` run 30 seconds from now
        -  ``success condition``, function used to determine whether the task
           was successful this iteration. defaults to no exceptions raised and a
           non None return value
        
        here are a few examples of what can be done with tasks
        
        .. code:: python
        
            from functastic import Task
            import time
            f = some_function
            # this is the basic task, some_function will be retried as often as possible
            # until it returns a non None value and doesn't raise
            task = Task(f, args['a'])
        
            # let's give it only 10 tries
            task = Task(f, args['a'], attempts=10)
        
            # and slow it down a bit (wait 1 second between each attempt).
            # the delay schedules the task again 1 second after the previous
            # attempt
            task = Task(f, args['a'], attempts=10, delay=1)
        
            # and now let's make it backoff if at first it doesn't succeed
            # this will be run at t=[0, 1, 2, 4, 8, 16, 32, 64, 128, 256] seconds
            task = Task(f, args['a'], attempts=10, delay=1, backoff=2)
        
            # another way to think of a task only having a certain number of attempts
            # is to give it a timeout
            # this function will be run approximately every 1 second for 60 seconds
            # CAUTION! long running tasks may delay things, tasks with task_timeout
            #          can only be guaranteed to run once
            task = Task(f, args['a'], task_timeout=60, delay=1)
        
            # want to schedule a task to start running 60 seconds from now?
            # note that the task_timeout doesn't start counting until the first run
            # so this function will start running in 60 seconds and retry every 1
            # second for 30 seconds
            task = Task(f, args['a'], start_time=time.time()+60, delay=1,
                        task_timeout=30))
        
            # define your own success condition for a task
            task = Task(f, args['a'], delay=1,
                        success_condition=lambda t: t.result == 'a')
            # or change it later
            task.success_condition = lambda t: t.result == 'b'
            # you could also define a more involved function instead of lambdas
            def success(task):
                if 'some key' in task.result:
                    return True
        
            task = Task(f, args['a'], delay=1, success_condition=success)
        
            # if you want a task to run over and over forever, 10 seconds after
            # it last finished, set an unmeetable success condition and do not
            # specify attempts
            task = Task(f, args=['a'], delay=10,
                        success_condition=lambda t: t.result == 'kittens')
        
            # Tasks can be used independently of a TaskHeap
            task = Task(f, args['a'], attempts=10)
            while task.retry:
                task()
                time.sleep(2)
        
        ``TaskHeap`` usage
        ------------------
        
        putting ``Task`` together with the ``TaskHeap``, I'll use a simple
        function that fails pretty often both with Exceptions and return values
        
        .. code:: python
        
            def usually_fails(arg):
                if random.randint(1, 4) != 1:
                    raise Exception('everything is ruined')
                if random.randint(1, 4) != 2:
                    return None
                print '%s ran at %s' % (arg, datetime.today())
                return arg
        
        ``TaskHeap`` is iterable and works as a ``bool`` and ``str(tasks)``
        gives a pretty good output
        
        .. code:: python
        
            from functastic import Task
            from functastic import TaskHeap
            tasks = TaskHeap()
            tasks.append(Task(usually_fails, args=['a'], delay=1))
            tasks.append(Task(usually_fails, args=['b'], attempts=10, delay=1))
            if tasks:
                print len(tasks)
                print str(tasks)
                for task in tasks:
                    print task
        
        unthreaded use
        ^^^^^^^^^^^^^^
        
        run a task or set of tasks and return when they finish. without
        ``stop=True`` the ``tasks.run()`` call will block forever because it
        won't stop iterating every ``TaskHeap`` ``interval``.
        
        .. code:: python
        
            from functastic import Task
            from functastic import TaskHeap
            # add tasks and then run run(stop=True)
            tasks = TaskHeap()
            tasks.append(Task(usually_fails, args=['a'], delay=1))
            tasks.append(Task(usually_fails, args=['b'], attempts=10, delay=1))
            tasks.run(stop=True)
        
        use with threading library
        ^^^^^^^^^^^^^^^^^^^^^^^^^^
        
        ``TaskHeap`` works well with threading libraries. this will run the task
        loop in another thread and add tasks willy nilly while they run
        
        .. code:: python
        
            import eventlet
            from functastic import Task
            from functastic import TaskHeap
            # note the use of eventlet.sleep here to specify which sleep
            # function TaskHeap should use, or use monkey patching
            # interval can also be passed if you don't like the default 0.1s
            # this sets the interval task run interval to 3 seconds
            tasks = TaskHeap(sleep=eventlet.sleep, interval=3)
            eventlet.spawn(tasks.run)
            tasks.append(Task(usually_fails, args=['a'], delay=1))
            tasks.append(Task(usually_fails, args=['b'], attempts=10, delay=1))
        
            # have to sleep here to surrender execution to the green thread
            while tasks:
                tasks.sleep()
        
        stopping tasks
        ^^^^^^^^^^^^^^
        
        once a ``TaskHeap`` has been started with ``run()``, it will run
        indefinitely unless ``stop=True`` is passed in ``run(stop=True)``. it
        can be stopped in two different ways: - ``stop_after()``, causes the
        task loop to exit once all tasks are completed - ``stop_now()``, causes
        the task loop to stop as soon as possible. since the task loop is single
        threaded, it will only exit after finishing the current iteration. this
        means the current task, if there is one, will continue as planned, but
        all future tasks will not be run unless ``run()`` is called again.
        
        .. code:: python
        
            import eventlet
            from functastic import Task
            from functastic import TaskHeap
        
            tasks = TaskHeap(sleep=eventlet.sleep)
            gt = eventlet.spawn(tasks.run)
            tasks.append(Task(usually_fails, args=['a'], delay=1))
            tasks.append(Task(usually_fails, args=['b'], attempts=10, delay=1))
        
            # stop the tasks thread after 5 second, gt.wait() will return almost
            # instantly
            tasks.sleep(5)
            tasks.stop_now()
            gt.wait()             # <-- this line should return quickly
        
            # start the tasks again
            gt = eventlet.spawn(tasks.run)
        
            # this time tell the tasks loop to exit once finished
            tasks.sleep()
            tasks.stop_after()
            gt.wait()             # <-- this line should return when all tasks complete
        
Keywords: task,tasks,retry,func,functions
Platform: UNKNOWN
Classifier: Development Status :: 5 - Production/Stable
Classifier: License :: OSI Approved :: Apache Software License
