promise-keeper

A simple async processing helper


License
Other
Install
pip install promise-keeper==1.0.0

Documentation

Python PromiseKeeper

This module creates a multi-threaded system that you can submit work to, to be executed asynchronously. It will return immediately with a promise that you can periodically check to see if the work is done.

The main idea is to instantiate an instance of the PromiseKeeper and then submit requests for it to do work on your behalf. It will schedule your request to be executed on a thread and return a Promise instance to you. You can look at the promise to determine the status of the execution.

The promise keeper will track the results (return value) of your requested work and include it in the Promise that it returned to you when you submitted the request. If your work request raises an exception, the PromiseKeeper will capture the exception and include that in the Promise as well.

Here's a quick example:

#!/usr/bin/env python

from promise_keeper import PromiseKeeper
from random import random
from time import sleep

def slow_square(x: int) -> int:
    sleep(random() * 3)
    return x*x

pk = PromiseKeeper()

# doesn't block
promise = pk.submit(slow_square, (10,))

# while the promise is being processed
# you can go on and do other work.

while not promise.is_ready():
    # do other work here.
    print('.')

# Check the result of your work
print(promise.get_result())

The PromiseKeeper maintains an internal queue of tasks to be completed. This means you can submit lots of requests for work and it will complete the requests in the order that it recieved them. Here's another example:

#!/usr/bin/env python

from promise_keeper import PromiseKeeper
from random import random
from time import sleep

def slow_square(x: int) -> int:
    sleep(random() * 3)
    return x*x

pk = PromiseKeeper(2)  # use 2 threads this time! (defaults to 1)

# doesn't block
promises = [pk.submit(slow_square, (i,)) for i in range(10)]

# while the promise is being processed
# you can go on and do other work.

while pk.is_running():
    # Again, you can go off and do other things while the tasks are being
    # worked on.
    pass

# Check the result of your work
for promise in promises:
    print(promise.get_result())

As mentioned earlier, the PromiseKeeper will even keep track of exceptions thrown by your code, so you don't have to worry about a crash.

#!/usr/bin/env python

from promise_keeper import PromiseKeeper
from random import random
from time import sleep

def slow_div(x: int, y: int) -> int:
    sleep(random() * 1)
    return x / y

pk = PromiseKeeper(3)
promises = [pk.submit(slow_div, (200, i)) for i in range(-3, 4)]

while pk.is_running():
    pass

for promise in promises:
    if promise.get_exception() is None:
        print(promise.get_result())
    else:
        print(promise.get_exception())

You can even have the PromiseKeeper notify you when your promise is completed rather than having to poll the promises to see when they're done.

#!/usr/bin/env python

from promise_keeper import PromiseKeeper, Promise
from random import random
from time import sleep

def slow_div(x: int, y: int) -> int:
    sleep(random() * 1)
    return x / y

def promise_completed(promise: Promise) -> None:
    if promise.get_exception() is None:
        print("Result", promise.get_result())
    else:
        print("Error", promise.get_exception())

pk = PromiseKeeper(3)
promises = [pk.submit(slow_div, (200, i), notify=promise_completed) \
    for i in range(-3, 4)]

while pk.is_running():
    pass