Difference between coroutine and future/task in Python 3.5?

From the BDFL [2013]

Tasks

• It's a coroutine wrapped in a Future
• class Task is a subclass of class Future
• So it works with await too!

---

• How does it differ from a bare coroutine?
• It can make progress without waiting for it
  • As long as you wait for something else, i.e.
    • await [something_else]

With this in mind, ensure_future makes sense as a name for creating a Task since the Future's result will be computed whether or not you await it (as long as you await something). This allows the event loop to complete your Task while you're waiting on other things. Note that in Python 3.7 create_task is the preferred way ensure a future.

Note: I changed "yield from" in Guido's slides to "await" here for modernity.

A coroutine is a generator function that can both yield values and accept values from the outside. The benefit of using a coroutine is that we can pause the execution of a function and resume it later. In case of a network operation, it makes sense to pause the execution of a function while we're waiting for the response. We can use the time to run some other functions.

A future is like the Promise objects from Javascript. It is like a placeholder for a value that will be materialized in the future. In the above-mentioned case, while waiting on network I/O, a function can give us a container, a promise that it will fill the container with the value when the operation completes. We hold on to the future object and when it's fulfilled, we can call a method on it to retrieve the actual result.

Direct Answer: You don't need ensure_future if you don't need the results. They are good if you need the results or retrieve exceptions occurred.

Extra Credits: I would choose run_in_executor and pass an Executor instance to control the number of max workers.

Explanations and Sample codes

In the first example, you are using coroutines. The wait function takes a bunch of coroutines and combines them together. So wait() finishes when all the coroutines are exhausted (completed/finished returning all the values).

loop = get_event_loop() # 
loop.run_until_complete(wait(coros))

The run_until_complete method would make sure that the loop is alive until the execution is finished. Please notice how you are not getting the results of the async execution in this case.

In the second example, you are using the ensure_future function to wrap a coroutine and return a Task object which is a kind of Future. The coroutine is scheduled to be executed in the main event loop when you call ensure_future. The returned future/task object doesn't yet have a value but over time, when the network operations finish, the future object will hold the result of the operation.

from asyncio import ensure_future

futures = []
for i in range(5):
    futures.append(ensure_future(foo(i)))

loop = get_event_loop()
loop.run_until_complete(wait(futures))

So in this example, we're doing the same thing except we're using futures instead of just using coroutines.

Let's look at an example of how to use asyncio/coroutines/futures:

import asyncio


async def slow_operation():
    await asyncio.sleep(1)
    return 'Future is done!'


def got_result(future):
    print(future.result())

    # We have result, so let's stop
    loop.stop()


loop = asyncio.get_event_loop()
task = loop.create_task(slow_operation())
task.add_done_callback(got_result)

# We run forever
loop.run_forever()

Here, we have used the create_task method on the loop object. ensure_future would schedule the task in the main event loop. This method enables us to schedule a coroutine on a loop we choose.

We also see the concept of adding a callback using the add_done_callback method on the task object.

A Task is done when the coroutine returns a value, raises an exception or gets canceled. There are methods to check these incidents.

I have written some blog posts on these topics which might help:

• http://masnun.com/2015/11/13/python-generators-coroutines-native-coroutines-and-async-await.html
• http://masnun.com/2015/11/20/python-asyncio-future-task-and-the-event-loop.html
• http://masnun.com/2015/12/07/python-3-using-blocking-functions-or-codes-with-asyncio.html

Of course, you can find more details on the official manual: https://docs.python.org/3/library/asyncio.html

Simple answer

• Invoking a coroutine function(async def) does NOT run it. It returns a coroutine objects, like generator function returns generator objects.
• await retrieves values from coroutines, i.e. "calls" the coroutine
• eusure_future/create_task schedule the coroutine to run on the event loop on next iteration(although not waiting them to finish, like a daemon thread).

Some code examples

Let's first clear some terms:

• coroutine function, the one you async defs;
• coroutine object, what you got when you "call" a coroutine function;
• task, a object wrapped around a coroutine object to run on the event loop.

Case 1, await on a coroutine

We create two coroutines, await one, and use create_task to run the other one.

import asyncio
import time

# coroutine function
async def p(word):
    print(f'{time.time()} - {word}')


async def main():
    loop = asyncio.get_event_loop()
    coro = p('await')  # coroutine
    task2 = loop.create_task(p('create_task'))  # <- runs in next iteration
    await coro  # <-- run directly
    await task2

if __name__ == "__main__":
    loop = asyncio.get_event_loop()
    loop.run_until_complete(main())

you will get result:

1539486251.7055213 - await
1539486251.7055705 - create_task

Explain:

task1 was executed directly, and task2 was executed in the following iteration.

Case 2, yielding control to event loop

If we replace the main function, we can see a different result:

async def main():
    loop = asyncio.get_event_loop()
    coro = p('await')
    task2 = loop.create_task(p('create_task'))  # scheduled to next iteration
    await asyncio.sleep(1)  # loop got control, and runs task2
    await coro  # run coro
    await task2

you will get result:

-> % python coro.py
1539486378.5244057 - create_task
1539486379.5252144 - await  # note the delay

Explain:

When calling asyncio.sleep(1), the control was yielded back to the event loop, and the loop checks for tasks to run, then it runs the task created by create_task.

Note that, we first invoke the coroutine function, but not await it, so we just created a single coroutine, and not make it running. Then, we call the coroutine function again, and wrap it in a create_task call, creat_task will actually schedule the coroutine to run on next iteration. So, in the result, create task is executed before await.

Actually, the point here is to give back control to the loop, you could use asyncio.sleep(0) to see the same result.

Under the hood

loop.create_task actually calls asyncio.tasks.Task(), which will call loop.call_soon. And loop.call_soon will put the task in loop._ready. During each iteration of the loop, it checks for every callbacks in loop._ready and runs it.

asyncio.wait, asyncio.ensure_future and asyncio.gather actually call loop.create_task directly or indirectly.

Also note in the docs:

Callbacks are called in the order in which they are registered. Each callback will be called exactly once.

A comment by Vincent linked to https://github.com/python/asyncio/blob/master/asyncio/tasks.py#L346, which shows that wait() wraps the coroutines in ensure_future() for you!

In other words, we do need a future, and coroutines will be silently transformed into them.

I'll update this answer when I find a definitive explanation of how to batch coroutines/futures.