(Note: this question is strictly about the design of the API, not about how to implement it; i.e. I only care about what the client of my API sees here, not what I have to do to make it work.)
In simple terms: I want to know the established pattern - if any - for explicit futures (aka promises, aka deferreds, aka tasks - names vary depending on the framework) in Python. Following is a more detailed description.
Consider a simple Python API like this:
def read_line(): ... s = read_line() print(s)
This is a syncronous version - it will block if a line is not available yet. Suppose, now, that I want to provide a corresponding asynchronous (non-blocking) version that allows to register a callback to be invoked once the operation completes. E.g. a simple version could look like this:
def read_line_async(callback): ... read_line_async(lambda s: print(s))
Now, in other languages and frameworks, there are often existing mandated or at least well-established patterns for such APIs. For example, in .NET prior to version 4, one would typically provide a pair of
EndReadLine methods, and use the stock
IAsyncResult interface to register callbacks and pass the resulting values. In .NET 4+, one uses
System.Threading.Tasks, so as to enable all task combining operators (
WhenAll etc), and to hook up into C# 5.0
readLine in JS, I would name it
readLineAsync, and implement
then method on the returned value.
What, if any, is the established pattern in Python land? Looking through the standard library, I see several modules offering asynchronous APIs, but no consistent pattern between them, and nothing like a standardized protocol for "tasks" or "promises". Perhaps there is some pattern that can be derived from popular third-party libraries?
I've also seen the (oft-mentioned in this context) Deferred class in Twisted, but it seems to be overengineered for a general-purpose promise API, and rather adapted to the specific needs of this library. It doesn't look like something that I could easily clone an interface for (without taking a dependency on them) such that our promises would interoperate well if the client uses both libraries together in his application. Is there any other popular library or framework that has an explicitly designed API for this, that I could copy (and interoperate with) without taking a direct dependency?