I have a Connection object that is used to contain the read and write streams of asyncio connections:

class Connection(object):

    def __init__(self, stream_in, stream_out):
        object.__init__(self)

        self.__in = stream_in
        self.__out = stream_out

    def read(self, n_bytes : int = -1):
        return self.__in.read(n_bytes)

    def write(self, bytes_ : bytes):
        self.__out.write(bytes_)
        yield from self.__out.drain()

On the server side, connected creates a Connection object every time a client connects, then reads 4 bytes.

@asyncio.coroutine
def new_conection(stream_in, stream_out):
    conn = Connection(stream_in, stream_out)
    data = yield from conn.read(4)
    print(data)

And on the client side, 4 bytes are written out.

@asyncio.coroutine
def client(loop):
    ...
    conn = Connection(stream_in, stream_out)
    yield from conn.write(b'test')

This works almost as expected, but I have to yield from every read and write call. I've tried yield froming from inside Connection:

def read(self, n_bytes : int = -1):
    data = yield from self.__in.read(n_bytes)
    return data

But rather than getting data, I get an output like

<generator object StreamReader.read at 0x1109983b8>

If I call read and write from multiple places, I would prefer not to repeat the yield froms every time; rather keeping them inside Connection. My ultimate goal is cut down my new_conection function to this:

@asyncio.coroutine
def new_conection(stream_in, stream_out):
    conn = Connection(stream_in, stream_out)
    print(conn.read(4))
  • Why do you have to yield from? If you don't yield from conn.read(4), it looks to me like it simply returns a bytes object. Is that what you are looking for here? – RageCage Aug 29 '17 at 20:48
  • @RageCage: Without yield froming, conn.read(4) still returns a generator: <generator object Connection.read at 0x1019262b0> – Zach Gates Aug 29 '17 at 20:52
  • Sorry I should have clarified; if you don't yield from the first iteration of conn.read() (the single line version) what is the result? – RageCage Aug 29 '17 at 20:56
  • @RageCage: If you mean def read(self, n_bytes): return self.__in.read(n_bytes) in conjunction with data = conn.read(4), I'm still getting a generator (Connection.read). – Zach Gates Aug 29 '17 at 21:01
  • Sounds like there is some context I'm missing. The StreamReader.read function should return a regular byte array, so if you never use the yield keyword anywhere in the reading workflow a generator should never be made. – RageCage Aug 29 '17 at 21:06
up vote 5 down vote accepted
+50

Because StreamReader.read is a coroutine, your only options for calling it are a) wrapping it in a Task or Future and running that via an event loop, b) awaiting it from coroutine defined with async def, or c) using yield from with it from a coroutine defined as a function decorated with @asyncio.coroutine.

Since Connection.read is called from an event loop (via the coroutine new_connection), you can't reuse that event loop to run a Task or Future for StreamReader.read: event loops can't be started while they're already running. You'd either have to stop the event loop (disastrous and probably not possible to do correctly) or create a new event loop (messy and defeating the purpose of using coroutines). Neither of those are desirable, so Connection.read needs to be a coroutine or an async function.

The other two options (await in an async def coroutine or yield from in a @asyncio.coroutine-decorated function) are mostly equivalent. The only difference is that async def and await were added in Python 3.5, so for 3.4, using yield from and @asyncio.coroutine is the only option (coroutines and asyncio didn't exist prior to 3.4, so other versions are irrelevant). Personally, I prefer using async def and await, because defining coroutines with async def is cleaner and clearer than with the decorator.

In brief: have Connection.read and new_connection be coroutines (using either the decorator or the async keyword), and use await (or yield from) when calling other coroutines (await conn.read(4) in new_connection, and await self.__in.read(n_bytes) in Connection.read).

  • 1
    Ah, very nice answer Mego! This is clearly written by someone who knows what their talking about. I learned much from reading it. +1 – Christian Dean Sep 3 '17 at 20:57

I found a chunk of the StreamReader source code on line 620 is actually a perfect example of the function's usage.

In my previous answer, I overlooked the fact that self.__in.read(n_bytes) is not only a coroutine (which I should've known considering it was from the asyncio module XD) but it yields a result on line . So it is in fact a generator, and you will need to yield from it.

Borrowing this loop from the source code, your read function should look something like this:

def read(self, n_bytes : int = -1):
    data = bytearray() #or whatever object you are looking for
    while 1:
        block = yield from self.__in.read(n_bytes)
        if not block:
            break
        data += block
    return data

Because self.__in.read(n_bytes) is a generator, you have to continue to yield from it until it yields an empty result to signal the end of the read. Now your read function should return data rather than a generator. You won't have to yield from this version of conn.read().

  • Using the function exactly as you've provided it, I'm still receiving a generator object (Connection.read). – Zach Gates Aug 30 '17 at 18:04
  • Are you still yielding from the conn.read call? Try printing data and type(data) in the read function to see what it is before returning. – RageCage Aug 30 '17 at 18:28
  • No, I removed that and tried data = conn.read(4) instead. It is a generator. – Zach Gates Aug 30 '17 at 18:28
  • Using yield from like this won't work, because StreamReader.read isn't a generator - it's a coroutine. The two different uses of yield from (delegating with generators and handing off control between coroutines) is exactly why the await keyword was introduced in 3.5. – Mego Sep 3 '17 at 3:49

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