class pykka.ActorProxy(actor_ref, attr_path=None)[source]

An ActorProxy wraps an ActorRef instance. The proxy allows the referenced actor to be used through regular method calls and field access.

You can create an ActorProxy from any ActorRef:

actor_ref = MyActor.start()
actor_proxy = ActorProxy(actor_ref)

You can also get an ActorProxy by using proxy():

actor_proxy = MyActor.start().proxy()

When reading an attribute or getting a return value from a method, you get a Future object back. To get the enclosed value from the future, you must call get() on the returned future:

print(actor_proxy.count().get() + 1)

If you call a method just for it’s side effects and do not care about the return value, you do not need to accept the returned future or call get() on the future. Simply call the method, and it will be executed concurrently with your own code:


If you want to block your own code from continuing while the other method is processing, you can use get() to block until it completes:


An actor can use a proxy to itself to schedule work for itself. The scheduled work will only be done after the current message and all messages already in the inbox are processed.

For example, if an actor can split a time consuming task into multiple parts, and after completing each part can ask itself to start on the next part using proxied calls or messages to itself, it can react faster to other incoming messages as they will be interleaved with the parts of the time consuming task. This is especially useful for being able to stop the actor in the middle of a time consuming task.

To create a proxy to yourself, use the actor’s actor_ref attribute:

proxy_to_myself_in_the_future = self.actor_ref.proxy()

If you create a proxy in your actor’s constructor or on_start method, you can create a nice API for deferring work to yourself in the future:

def __init__(self):
    self.in_future = self.actor_ref.proxy()

def do_work(self):

def do_more_work(self):

An example of ActorProxy usage:

#!/usr/bin/env python3

import pykka

class Adder(pykka.ThreadingActor):
    def add_one(self, i):
        print(f'{self} is increasing {i}')
        return i + 1

class Bookkeeper(pykka.ThreadingActor):
    def __init__(self, adder):
        self.adder = adder

    def count_to(self, target):
        i = 0
        while i < target:
            i = self.adder.add_one(i).get()
            print(f'{self} got {i} back')

if __name__ == '__main__':
    adder = Adder.start().proxy()
    bookkeeper = Bookkeeper.start(adder).proxy()
Parameters:actor_ref (pykka.ActorRef) – reference to the actor to proxy
Raise:pykka.ActorDeadError if actor is not available
actor_ref = None

The actor’s pykka.ActorRef instance.