generated from daniil-berg/boilerplate-py
renamed group_size
to num_concurrent
in _map
This commit is contained in:
parent
54e5bfa8a0
commit
23a4cb028a
@ -96,9 +96,9 @@ When you are dealing with a regular :py:class:`TaskPool <asyncio_taskpool.pool.T
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.. code-block:: none
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.. code-block:: none
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> map mypackage.mymodule.worker ['x','y','z'] -g 3
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> map mypackage.mymodule.worker ['x','y','z'] -n 3
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The :code:`-g` is a shorthand for :code:`--group-size` in this case. In general, all (public) pool methods will have a corresponding command in the control session.
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The :code:`-n` is a shorthand for :code:`--num-concurrent` in this case. In general, all (public) pool methods will have a corresponding command in the control session.
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.. note::
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.. note::
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@ -46,7 +46,7 @@ Let's take a look at an example. Say you have a coroutine function that takes tw
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async def queue_worker_function(in_queue: Queue, out_queue: Queue) -> None:
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async def queue_worker_function(in_queue: Queue, out_queue: Queue) -> None:
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while True:
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while True:
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item = await in_queue.get()
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item = await in_queue.get()
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... # Do some work on the item amd arrive at a result.
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... # Do some work on the item and arrive at a result.
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await out_queue.put(result)
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await out_queue.put(result)
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How would we go about concurrently executing this function, say 5 times? There are (as always) a number of ways to do this with :code:`asyncio`. If we want to use tasks and be clean about it, we can do it like this:
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How would we go about concurrently executing this function, say 5 times? There are (as always) a number of ways to do this with :code:`asyncio`. If we want to use tasks and be clean about it, we can do it like this:
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@ -141,7 +141,7 @@ Or we could use a task pool:
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async def main():
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async def main():
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...
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...
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pool = TaskPool()
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pool = TaskPool()
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await pool.map(another_worker_function, data_iterator, group_size=5)
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await pool.map(another_worker_function, data_iterator, num_concurrent=5)
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...
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...
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pool.lock()
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pool.lock()
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await pool.gather_and_close()
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await pool.gather_and_close()
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@ -231,5 +231,6 @@ One method to be aware of is :py:meth:`.flush() <asyncio_taskpool.pool.BaseTaskP
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In general, the act of adding tasks to a pool is non-blocking, no matter which particular methods are used. The only notable exception is when a limit on the pool size has been set and there is "not enough room" to add a task. In this case, both :py:meth:`SimpleTaskPool.start() <asyncio_taskpool.pool.SimpleTaskPool.start>` and :py:meth:`TaskPool.apply() <asyncio_taskpool.pool.TaskPool.apply>` will block until the desired number of new tasks found room in the pool (either because other tasks have ended or because the pool size was increased).
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In general, the act of adding tasks to a pool is non-blocking, no matter which particular methods are used. The only notable exception is when a limit on the pool size has been set and there is "not enough room" to add a task. In this case, both :py:meth:`SimpleTaskPool.start() <asyncio_taskpool.pool.SimpleTaskPool.start>` and :py:meth:`TaskPool.apply() <asyncio_taskpool.pool.TaskPool.apply>` will block until the desired number of new tasks found room in the pool (either because other tasks have ended or because the pool size was increased).
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:py:meth:`TaskPool.map() <asyncio_taskpool.pool.TaskPool.map>` (and its variants) will **never** block. Since it makes use of "meta-tasks" under the hood, it will always return immediately. However, if the pool was full when it was called, there is **no guarantee** that even a single task has started, when the method returns.
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:py:meth:`TaskPool.map() <asyncio_taskpool.pool.TaskPool.map>` (and its variants) will **never** block. Since it makes use of a "meta-task" under the hood, it will always return immediately. However, if the pool was full when it was called, there is **no guarantee** that even a single task has started, when the method returns.
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:py:meth:`TaskPool.map() <asyncio_taskpool.pool.TaskPool.map>` (and its variants) will **never** block. Since it makes use of a "meta-task" under the hood, it will always return immediately. However, if the pool was full when it was called, there is **no guarantee** that even a single task has started, when the method returns.
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@ -718,12 +718,12 @@ class TaskPool(BaseTaskPool):
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await execute_optional(actual_end_callback, args=(task_id,))
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await execute_optional(actual_end_callback, args=(task_id,))
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return release_callback
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return release_callback
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async def _arg_consumer(self, group_name: str, group_size: int, func: CoroutineFunc, arg_iter: ArgsT,
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async def _arg_consumer(self, group_name: str, num_concurrent: int, func: CoroutineFunc, arg_iter: ArgsT,
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arg_stars: int, end_callback: EndCB = None, cancel_callback: CancelCB = None) -> None:
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arg_stars: int, end_callback: EndCB = None, cancel_callback: CancelCB = None) -> None:
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"""
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"""
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Consumes arguments from :meth:`_map` and keeps a limited number of tasks working on them.
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Consumes arguments from :meth:`_map` and keeps a limited number of tasks working on them.
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The `group_size` acts as the limiting value of an internal semaphore, which must be acquired before a new task
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`num_concurrent` acts as the limiting value of an internal semaphore, which must be acquired before a new task
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can be started, and which must be released when one of these tasks ends.
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can be started, and which must be released when one of these tasks ends.
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Intended to be run as a meta task of a specific group.
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Intended to be run as a meta task of a specific group.
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@ -731,7 +731,7 @@ class TaskPool(BaseTaskPool):
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Args:
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Args:
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group_name:
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group_name:
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Name of the associated task group; passed into :meth:`_start_task`.
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Name of the associated task group; passed into :meth:`_start_task`.
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group_size:
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num_concurrent:
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The maximum number new tasks spawned by this method to run concurrently.
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The maximum number new tasks spawned by this method to run concurrently.
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func:
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func:
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The coroutine function to use for spawning the new tasks within the task pool.
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The coroutine function to use for spawning the new tasks within the task pool.
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@ -746,7 +746,7 @@ class TaskPool(BaseTaskPool):
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The callback that was specified to execute after cancellation of the task (and the next one).
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The callback that was specified to execute after cancellation of the task (and the next one).
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It is run with the task's ID as its only positional argument.
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It is run with the task's ID as its only positional argument.
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"""
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"""
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map_semaphore = Semaphore(group_size)
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map_semaphore = Semaphore(num_concurrent)
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release_cb = self._get_map_end_callback(map_semaphore, actual_end_callback=end_callback)
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release_cb = self._get_map_end_callback(map_semaphore, actual_end_callback=end_callback)
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for next_arg in arg_iter:
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for next_arg in arg_iter:
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# When the number of running tasks spawned by this method reaches the specified maximum,
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# When the number of running tasks spawned by this method reaches the specified maximum,
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@ -768,7 +768,7 @@ class TaskPool(BaseTaskPool):
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str(e.__class__.__name__), func.__name__, '*' * arg_stars, str(next_arg))
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str(e.__class__.__name__), func.__name__, '*' * arg_stars, str(next_arg))
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map_semaphore.release()
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map_semaphore.release()
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async def _map(self, group_name: str, group_size: int, func: CoroutineFunc, arg_iter: ArgsT, arg_stars: int,
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async def _map(self, group_name: str, num_concurrent: int, func: CoroutineFunc, arg_iter: ArgsT, arg_stars: int,
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end_callback: EndCB = None, cancel_callback: CancelCB = None) -> None:
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end_callback: EndCB = None, cancel_callback: CancelCB = None) -> None:
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"""
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"""
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Creates tasks in the pool with arguments from the supplied iterable.
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Creates tasks in the pool with arguments from the supplied iterable.
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@ -777,21 +777,21 @@ class TaskPool(BaseTaskPool):
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All the new tasks are added to the same task group.
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All the new tasks are added to the same task group.
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The `group_size` determines the maximum number of tasks spawned this way that shall be running concurrently at
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`num_concurrent` determines the (maximum) number of tasks spawned this way that shall be running concurrently at
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any given moment in time. As soon as one task from this group ends, it triggers the start of a new task
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any given moment in time. As soon as one task from this method call ends, it triggers the start of a new task
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(assuming there is room in the pool), which consumes the next element from the arguments iterable. If the size
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(assuming there is room in the pool), which consumes the next element from the arguments iterable. If the size
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of the pool never imposes a limit, this ensures that the number of tasks belonging to this group and running
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of the pool never imposes a limit, this ensures that the number of tasks spawned and running concurrently is
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concurrently is always equal to `group_size` (except for when `arg_iter` is exhausted of course).
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always equal to `num_concurrent` (except for when `arg_iter` is exhausted of course).
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Because this method delegates the spawning of the tasks to a meta task, it **never blocks**. However, just
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Because this method delegates the spawning of the tasks to a meta task, it **never blocks**. However, just
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because this method returns immediately, this does not mean that any task was started or that any number of
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because this method returns immediately, this does not mean that any task was started or that any number of
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tasks will start soon, as this is solely determined by the :attr:`BaseTaskPool.pool_size` and the `group_size`.
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tasks will start soon, as this is solely determined by the :attr:`BaseTaskPool.pool_size` and `num_concurrent`.
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Args:
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Args:
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group_name:
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group_name:
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Name of the task group to add the new tasks to. It must be a name that doesn't exist yet.
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Name of the task group to add the new tasks to. It must be a name that doesn't exist yet.
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group_size:
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num_concurrent:
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The maximum number new tasks spawned by this method to run concurrently.
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The number new tasks spawned by this method to run concurrently.
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func:
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func:
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The coroutine function to use for spawning the new tasks within the task pool.
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The coroutine function to use for spawning the new tasks within the task pool.
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arg_iter:
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arg_iter:
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@ -806,21 +806,21 @@ class TaskPool(BaseTaskPool):
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It is run with the task's ID as its only positional argument.
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It is run with the task's ID as its only positional argument.
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Raises:
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Raises:
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`ValueError`: `group_size` is less than 1.
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`ValueError`: `num_concurrent` is less than 1.
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`asyncio_taskpool.exceptions.InvalidGroupName`: A group named `group_name` exists in the pool.
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`asyncio_taskpool.exceptions.InvalidGroupName`: A group named `group_name` exists in the pool.
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"""
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"""
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self._check_start(function=func)
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self._check_start(function=func)
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if group_size < 1:
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if num_concurrent < 1:
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raise ValueError(f"Group size must be a positive integer.")
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raise ValueError("`num_concurrent` must be a positive integer.")
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if group_name in self._task_groups.keys():
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if group_name in self._task_groups.keys():
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raise exceptions.InvalidGroupName(f"Group named {group_name} already exists!")
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raise exceptions.InvalidGroupName(f"Group named {group_name} already exists!")
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self._task_groups[group_name] = group_reg = TaskGroupRegister()
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self._task_groups[group_name] = group_reg = TaskGroupRegister()
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async with group_reg:
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async with group_reg:
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meta_tasks = self._group_meta_tasks_running.setdefault(group_name, set())
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meta_tasks = self._group_meta_tasks_running.setdefault(group_name, set())
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meta_tasks.add(create_task(self._arg_consumer(group_name, group_size, func, arg_iter, arg_stars,
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meta_tasks.add(create_task(self._arg_consumer(group_name, num_concurrent, func, arg_iter, arg_stars,
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end_callback=end_callback, cancel_callback=cancel_callback)))
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end_callback=end_callback, cancel_callback=cancel_callback)))
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async def map(self, func: CoroutineFunc, arg_iter: ArgsT, group_size: int = 1, group_name: str = None,
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async def map(self, func: CoroutineFunc, arg_iter: ArgsT, num_concurrent: int = 1, group_name: str = None,
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end_callback: EndCB = None, cancel_callback: CancelCB = None) -> str:
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end_callback: EndCB = None, cancel_callback: CancelCB = None) -> str:
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"""
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"""
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A task-based equivalent of the `multiprocessing.pool.Pool.map` method.
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A task-based equivalent of the `multiprocessing.pool.Pool.map` method.
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@ -830,25 +830,23 @@ class TaskPool(BaseTaskPool):
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All the new tasks are added to the same task group.
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All the new tasks are added to the same task group.
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The `group_size` determines the maximum number of tasks spawned this way that shall be running concurrently at
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`num_concurrent` determines the (maximum) number of tasks spawned this way that shall be running concurrently at
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any given moment in time. As soon as one task from this group ends, it triggers the start of a new task
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any given moment in time. As soon as one task from this method call ends, it triggers the start of a new task
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(assuming there is room in the pool), which consumes the next element from the arguments iterable. If the size
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(assuming there is room in the pool), which consumes the next element from the arguments iterable. If the size
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of the pool never imposes a limit, this ensures that the number of tasks belonging to this group and running
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of the pool never imposes a limit, this ensures that the number of tasks spawned and running concurrently is
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concurrently is always equal to `group_size` (except for when `arg_iter` is exhausted of course).
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always equal to `num_concurrent` (except for when `arg_iter` is exhausted of course).
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This method sets up an internal arguments queue which is continuously filled while consuming the `arg_iter`.
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Because this method delegates the spawning of the tasks to a meta task, it **never blocks**. However, just
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Because this method delegates the spawning of the tasks to two meta tasks (a producer and a consumer of the
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because this method returns immediately, this does not mean that any task was started or that any number of
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aforementioned queue), it **never blocks**. However, just because this method returns immediately, this does
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tasks will start soon, as this is solely determined by the :attr:`BaseTaskPool.pool_size` and `num_concurrent`.
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not mean that any task was started or that any number of tasks will start soon, as this is solely determined by
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the :attr:`BaseTaskPool.pool_size` and the `group_size`.
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Args:
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Args:
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func:
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func:
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The coroutine function to use for spawning the new tasks within the task pool.
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The coroutine function to use for spawning the new tasks within the task pool.
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arg_iter:
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arg_iter:
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The iterable of arguments; each argument is to be passed into a `func` call when spawning a new task.
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The iterable of arguments; each argument is to be passed into a `func` call when spawning a new task.
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group_size (optional):
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num_concurrent (optional):
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The maximum number new tasks spawned by this method to run concurrently. Defaults to 1.
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The number new tasks spawned by this method to run concurrently. Defaults to 1.
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group_name (optional):
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group_name (optional):
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Name of the task group to add the new tasks to. If provided, it must be a name that doesn't exist yet.
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Name of the task group to add the new tasks to. If provided, it must be a name that doesn't exist yet.
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end_callback (optional):
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end_callback (optional):
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@ -865,16 +863,16 @@ class TaskPool(BaseTaskPool):
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`PoolIsClosed`: The pool is closed.
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`PoolIsClosed`: The pool is closed.
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`NotCoroutine`: `func` is not a coroutine function.
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`NotCoroutine`: `func` is not a coroutine function.
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`PoolIsLocked`: The pool is currently locked.
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`PoolIsLocked`: The pool is currently locked.
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`ValueError`: `group_size` is less than 1.
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`ValueError`: `num_concurrent` is less than 1.
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`InvalidGroupName`: A group named `group_name` exists in the pool.
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`InvalidGroupName`: A group named `group_name` exists in the pool.
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"""
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"""
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if group_name is None:
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if group_name is None:
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group_name = self._generate_group_name('map', func)
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group_name = self._generate_group_name('map', func)
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await self._map(group_name, group_size, func, arg_iter, 0,
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await self._map(group_name, num_concurrent, func, arg_iter, 0,
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end_callback=end_callback, cancel_callback=cancel_callback)
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end_callback=end_callback, cancel_callback=cancel_callback)
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return group_name
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return group_name
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async def starmap(self, func: CoroutineFunc, args_iter: Iterable[ArgsT], group_size: int = 1,
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async def starmap(self, func: CoroutineFunc, args_iter: Iterable[ArgsT], num_concurrent: int = 1,
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group_name: str = None, end_callback: EndCB = None, cancel_callback: CancelCB = None) -> str:
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group_name: str = None, end_callback: EndCB = None, cancel_callback: CancelCB = None) -> str:
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"""
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"""
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Like :meth:`map` except that the elements of `args_iter` are expected to be iterables themselves to be unpacked
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Like :meth:`map` except that the elements of `args_iter` are expected to be iterables themselves to be unpacked
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@ -883,11 +881,11 @@ class TaskPool(BaseTaskPool):
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"""
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"""
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if group_name is None:
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if group_name is None:
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group_name = self._generate_group_name('starmap', func)
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group_name = self._generate_group_name('starmap', func)
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await self._map(group_name, group_size, func, args_iter, 1,
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await self._map(group_name, num_concurrent, func, args_iter, 1,
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end_callback=end_callback, cancel_callback=cancel_callback)
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end_callback=end_callback, cancel_callback=cancel_callback)
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return group_name
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return group_name
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async def doublestarmap(self, func: CoroutineFunc, kwargs_iter: Iterable[KwArgsT], group_size: int = 1,
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async def doublestarmap(self, func: CoroutineFunc, kwargs_iter: Iterable[KwArgsT], num_concurrent: int = 1,
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group_name: str = None, end_callback: EndCB = None,
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group_name: str = None, end_callback: EndCB = None,
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cancel_callback: CancelCB = None) -> str:
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cancel_callback: CancelCB = None) -> str:
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"""
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"""
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@ -897,7 +895,7 @@ class TaskPool(BaseTaskPool):
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"""
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"""
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if group_name is None:
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if group_name is None:
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group_name = self._generate_group_name('doublestarmap', func)
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group_name = self._generate_group_name('doublestarmap', func)
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await self._map(group_name, group_size, func, kwargs_iter, 2,
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await self._map(group_name, num_concurrent, func, kwargs_iter, 2,
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end_callback=end_callback, cancel_callback=cancel_callback)
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end_callback=end_callback, cancel_callback=cancel_callback)
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return group_name
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return group_name
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@ -655,18 +655,18 @@ class TaskPoolTestCase(CommonTestCase):
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async def test_map(self, mock__generate_group_name: MagicMock, mock__map: AsyncMock):
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async def test_map(self, mock__generate_group_name: MagicMock, mock__map: AsyncMock):
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mock__generate_group_name.return_value = generated_name = 'name 1 2 3'
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mock__generate_group_name.return_value = generated_name = 'name 1 2 3'
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mock_func = MagicMock()
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mock_func = MagicMock()
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arg_iter, group_size, group_name = (FOO, BAR, 1, 2, 3), 2, FOO + BAR
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arg_iter, num_concurrent, group_name = (FOO, BAR, 1, 2, 3), 2, FOO + BAR
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end_cb, cancel_cb = MagicMock(), MagicMock()
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end_cb, cancel_cb = MagicMock(), MagicMock()
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output = await self.task_pool.map(mock_func, arg_iter, group_size, group_name, end_cb, cancel_cb)
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output = await self.task_pool.map(mock_func, arg_iter, num_concurrent, group_name, end_cb, cancel_cb)
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self.assertEqual(group_name, output)
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self.assertEqual(group_name, output)
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mock__map.assert_awaited_once_with(group_name, group_size, mock_func, arg_iter, 0,
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mock__map.assert_awaited_once_with(group_name, num_concurrent, mock_func, arg_iter, 0,
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end_callback=end_cb, cancel_callback=cancel_cb)
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end_callback=end_cb, cancel_callback=cancel_cb)
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mock__generate_group_name.assert_not_called()
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mock__generate_group_name.assert_not_called()
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mock__map.reset_mock()
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mock__map.reset_mock()
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output = await self.task_pool.map(mock_func, arg_iter, group_size, None, end_cb, cancel_cb)
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output = await self.task_pool.map(mock_func, arg_iter, num_concurrent, None, end_cb, cancel_cb)
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self.assertEqual(generated_name, output)
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self.assertEqual(generated_name, output)
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mock__map.assert_awaited_once_with(generated_name, group_size, mock_func, arg_iter, 0,
|
mock__map.assert_awaited_once_with(generated_name, num_concurrent, mock_func, arg_iter, 0,
|
||||||
end_callback=end_cb, cancel_callback=cancel_cb)
|
end_callback=end_cb, cancel_callback=cancel_cb)
|
||||||
mock__generate_group_name.assert_called_once_with('map', mock_func)
|
mock__generate_group_name.assert_called_once_with('map', mock_func)
|
||||||
|
|
||||||
@ -675,18 +675,18 @@ class TaskPoolTestCase(CommonTestCase):
|
|||||||
async def test_starmap(self, mock__generate_group_name: MagicMock, mock__map: AsyncMock):
|
async def test_starmap(self, mock__generate_group_name: MagicMock, mock__map: AsyncMock):
|
||||||
mock__generate_group_name.return_value = generated_name = 'name 1 2 3'
|
mock__generate_group_name.return_value = generated_name = 'name 1 2 3'
|
||||||
mock_func = MagicMock()
|
mock_func = MagicMock()
|
||||||
args_iter, group_size, group_name = ([FOO], [BAR]), 2, FOO + BAR
|
args_iter, num_concurrent, group_name = ([FOO], [BAR]), 2, FOO + BAR
|
||||||
end_cb, cancel_cb = MagicMock(), MagicMock()
|
end_cb, cancel_cb = MagicMock(), MagicMock()
|
||||||
output = await self.task_pool.starmap(mock_func, args_iter, group_size, group_name, end_cb, cancel_cb)
|
output = await self.task_pool.starmap(mock_func, args_iter, num_concurrent, group_name, end_cb, cancel_cb)
|
||||||
self.assertEqual(group_name, output)
|
self.assertEqual(group_name, output)
|
||||||
mock__map.assert_awaited_once_with(group_name, group_size, mock_func, args_iter, 1,
|
mock__map.assert_awaited_once_with(group_name, num_concurrent, mock_func, args_iter, 1,
|
||||||
end_callback=end_cb, cancel_callback=cancel_cb)
|
end_callback=end_cb, cancel_callback=cancel_cb)
|
||||||
mock__generate_group_name.assert_not_called()
|
mock__generate_group_name.assert_not_called()
|
||||||
|
|
||||||
mock__map.reset_mock()
|
mock__map.reset_mock()
|
||||||
output = await self.task_pool.starmap(mock_func, args_iter, group_size, None, end_cb, cancel_cb)
|
output = await self.task_pool.starmap(mock_func, args_iter, num_concurrent, None, end_cb, cancel_cb)
|
||||||
self.assertEqual(generated_name, output)
|
self.assertEqual(generated_name, output)
|
||||||
mock__map.assert_awaited_once_with(generated_name, group_size, mock_func, args_iter, 1,
|
mock__map.assert_awaited_once_with(generated_name, num_concurrent, mock_func, args_iter, 1,
|
||||||
end_callback=end_cb, cancel_callback=cancel_cb)
|
end_callback=end_cb, cancel_callback=cancel_cb)
|
||||||
mock__generate_group_name.assert_called_once_with('starmap', mock_func)
|
mock__generate_group_name.assert_called_once_with('starmap', mock_func)
|
||||||
|
|
||||||
@ -695,18 +695,18 @@ class TaskPoolTestCase(CommonTestCase):
|
|||||||
async def test_doublestarmap(self, mock__generate_group_name: MagicMock, mock__map: AsyncMock):
|
async def test_doublestarmap(self, mock__generate_group_name: MagicMock, mock__map: AsyncMock):
|
||||||
mock__generate_group_name.return_value = generated_name = 'name 1 2 3'
|
mock__generate_group_name.return_value = generated_name = 'name 1 2 3'
|
||||||
mock_func = MagicMock()
|
mock_func = MagicMock()
|
||||||
kwargs_iter, group_size, group_name = [{'a': FOO}, {'a': BAR}], 2, FOO + BAR
|
kw_iter, num_concurrent, group_name = [{'a': FOO}, {'a': BAR}], 2, FOO + BAR
|
||||||
end_cb, cancel_cb = MagicMock(), MagicMock()
|
end_cb, cancel_cb = MagicMock(), MagicMock()
|
||||||
output = await self.task_pool.doublestarmap(mock_func, kwargs_iter, group_size, group_name, end_cb, cancel_cb)
|
output = await self.task_pool.doublestarmap(mock_func, kw_iter, num_concurrent, group_name, end_cb, cancel_cb)
|
||||||
self.assertEqual(group_name, output)
|
self.assertEqual(group_name, output)
|
||||||
mock__map.assert_awaited_once_with(group_name, group_size, mock_func, kwargs_iter, 2,
|
mock__map.assert_awaited_once_with(group_name, num_concurrent, mock_func, kw_iter, 2,
|
||||||
end_callback=end_cb, cancel_callback=cancel_cb)
|
end_callback=end_cb, cancel_callback=cancel_cb)
|
||||||
mock__generate_group_name.assert_not_called()
|
mock__generate_group_name.assert_not_called()
|
||||||
|
|
||||||
mock__map.reset_mock()
|
mock__map.reset_mock()
|
||||||
output = await self.task_pool.doublestarmap(mock_func, kwargs_iter, group_size, None, end_cb, cancel_cb)
|
output = await self.task_pool.doublestarmap(mock_func, kw_iter, num_concurrent, None, end_cb, cancel_cb)
|
||||||
self.assertEqual(generated_name, output)
|
self.assertEqual(generated_name, output)
|
||||||
mock__map.assert_awaited_once_with(generated_name, group_size, mock_func, kwargs_iter, 2,
|
mock__map.assert_awaited_once_with(generated_name, num_concurrent, mock_func, kw_iter, 2,
|
||||||
end_callback=end_cb, cancel_callback=cancel_cb)
|
end_callback=end_cb, cancel_callback=cancel_cb)
|
||||||
mock__generate_group_name.assert_called_once_with('doublestarmap', mock_func)
|
mock__generate_group_name.assert_called_once_with('doublestarmap', mock_func)
|
||||||
|
|
||||||
|
@ -41,7 +41,7 @@ async def main() -> None:
|
|||||||
pool = SimpleTaskPool(work, args=(5,)) # initializes the pool; no work is being done yet
|
pool = SimpleTaskPool(work, args=(5,)) # initializes the pool; no work is being done yet
|
||||||
await pool.start(3) # launches work tasks 0, 1, and 2
|
await pool.start(3) # launches work tasks 0, 1, and 2
|
||||||
await asyncio.sleep(1.5) # lets the tasks work for a bit
|
await asyncio.sleep(1.5) # lets the tasks work for a bit
|
||||||
await pool.start() # launches work task 3
|
await pool.start(1) # launches work task 3
|
||||||
await asyncio.sleep(1.5) # lets the tasks work for a bit
|
await asyncio.sleep(1.5) # lets the tasks work for a bit
|
||||||
pool.stop(2) # cancels tasks 3 and 2 (LIFO order)
|
pool.stop(2) # cancels tasks 3 and 2 (LIFO order)
|
||||||
pool.lock() # required for the last line
|
pool.lock() # required for the last line
|
||||||
@ -135,7 +135,7 @@ async def main() -> None:
|
|||||||
# Once there is room in the pool again, the third and fourth will each start (with IDs 4 and 5)
|
# Once there is room in the pool again, the third and fourth will each start (with IDs 4 and 5)
|
||||||
# only once there is room in the pool and no more than one other task of these new ones is running.
|
# only once there is room in the pool and no more than one other task of these new ones is running.
|
||||||
args_list = [(0, 10), (10, 20), (20, 30), (30, 40)]
|
args_list = [(0, 10), (10, 20), (20, 30), (30, 40)]
|
||||||
await pool.starmap(other_work, args_list, group_size=2)
|
await pool.starmap(other_work, args_list, num_concurrent=2)
|
||||||
print("> Called `starmap`")
|
print("> Called `starmap`")
|
||||||
# Now we lock the pool, so that we can safely await all our tasks.
|
# Now we lock the pool, so that we can safely await all our tasks.
|
||||||
pool.lock()
|
pool.lock()
|
||||||
@ -199,7 +199,7 @@ Started TaskPool-0_Task-3
|
|||||||
> other_work with 15
|
> other_work with 15
|
||||||
Ended TaskPool-0_Task-0
|
Ended TaskPool-0_Task-0
|
||||||
Ended TaskPool-0_Task-1 <--- these two end and free up two more slots in the pool
|
Ended TaskPool-0_Task-1 <--- these two end and free up two more slots in the pool
|
||||||
Started TaskPool-0_Task-4 <--- since the group size is set to 2, Task-5 will not start
|
Started TaskPool-0_Task-4 <--- since `num_concurrent` is set to 2, Task-5 will not start
|
||||||
> work with 190
|
> work with 190
|
||||||
> work with 190
|
> work with 190
|
||||||
> other_work with 16
|
> other_work with 16
|
||||||
|
Loading…
Reference in New Issue
Block a user