Ergonomic bindings for nanomsg next generation (nng), in Python. pynng provides a nice interface on top of the full power of nng. nng, and therefore pynng, make it easy to communicate between processes on a single computer or computers across a network. This library is compatible with Python ≥ 3.5. nng is the rewriting of Nanomsg, which is the spiritual successor to ZeroMQ.
Provide a Pythonic, works-out-of-the box library on Windows and Unix-y platforms. Like nng itself, the license is MIT, so it can be used without restriction.
On Windows, MacOS, and Linux, the usual
pip3 install pynng
should suffice. Note that on 32-bit Linux and on macOS no binary distributions are available, so CMake is also required.
Building from the GitHub repo works as well, natch:
git clone https://github.com/codypiersall/pynng
cd pynng
pip3 install -e .
(If you want to run tests, you also need to pip3 install trio curio pytest pytest-asyncio pytest-trio pytest-curio
,
then just run pytest test
.)
pynng might work on the BSDs as well. Who knows!
Using pynng is easy peasy:
from pynng import Pair0
s1 = Pair0()
s1.listen('tcp://127.0.0.1:54321')
s2 = Pair0()
s2.dial('tcp://127.0.0.1:54321')
s1.send(b'Well hello there')
print(s2.recv())
s1.close()
s2.close()
Since pynng sockets support setting most parameters in the socket's __init__
method and is a context manager, the above code can be written much shorter:
from pynng import Pair0
with Pair0(listen='tcp://127.0.0.1:54321') as s1, \
Pair0(dial='tcp://127.0.0.1:54321') as s2:
s1.send(b'Well hello there')
print(s2.recv())
Asynchronous sending also works with
curio, trio and asyncio. Here is an example using trio:
import pynng
import trio
async def send_and_recv(sender, receiver, message):
await sender.asend(message)
return await receiver.arecv()
with pynng.Pair0(listen='tcp://127.0.0.1:54321') as s1, \
pynng.Pair0(dial='tcp://127.0.0.1:54321') as s2:
received = trio.run(send_and_recv, s1, s2, b'hello there old pal!')
assert received == b'hello there old pal!'
Many other protocols are available as well:
Pair0
: one-to-one, bidirectional communication.Pair1
: one-to-one, bidirectional communication, but also supporting polyamorous socketsPub0
,Sub0
: publish/subscribe sockets.Surveyor0
,Respondent0
: Broadcast a survey to respondents, e.g. to find out what services are available.Req0
,Rep0
: request/response pattern.Push0
,Pull0
: Aggregate messages from multiple sources and load balance among many destinations.
Some examples (okay, just two examples) are available in the examples directory.
The only stable branch is master
. There will never be a git push -f
on master. On the other hand, all other branches are not considered stable;
they may be deleted, rebased, force-pushed, and any other manner of funky
business.