Hide Twisted and Crochet¶
Consider some synchronous do-one-thing-after-the-other application code that wants to use event-driven Twisted-using code. We have two threads at a minimum: the application thread(s) and the reactor thread. There are also multiple layers of code involved in this interaction:
- Twisted code: Should only be called in reactor thread. This may be code from the Twisted package itself, or more likely code you have written that is built on top of Twisted.
- @wait_for/@run_in_reactor wrappers: The body of the functions runs in the reactor thread… but the caller should be in the application thread.
- The application code: Runs in the application thread(s), expects synchronous/blocking calls.
Sometimes the first two layers suffice, but there are some issues with only
having these. First, if you’re using
@run_in_reactor it requires the
application code to understand Crochet’s API, i.e.
objects. Second, if the wrapped function returns an object that expects to
interact with Twisted, the application code will not be able to use that
object since it will be called in the wrong thread.
A better solution is to have an additional layer in-between the application
@wait_for/@run_in_reactor wrappers. This layer can hide
the details of the Crochet API and wrap returned Twisted objects if
necessary. As a result the application code simply seems a normal API, with no
need to understand
EventualResult objects or Twisted.
In the following example the different layers of the code demonstrate this
_ExchangeRate is just Twisted code, and
provides a blocking wrapper using Crochet.
#!/usr/bin/python """ An example of scheduling time-based events in the background. Download the latest EUR/USD exchange rate from Yahoo every 30 seconds in the background; the rendered Flask web page can use the latest value without having to do the request itself. Note this is example is for demonstration purposes only, and is not actually used in the real world. You should not do this in a real application without reading Yahoo's terms-of-service and following them. """ from __future__ import print_function from flask import Flask from twisted.internet.task import LoopingCall from twisted.web.client import getPage from twisted.python import log from crochet import wait_for, run_in_reactor, setup setup() # Twisted code: class _ExchangeRate(object): """Download an exchange rate from Yahoo Finance using Twisted.""" def __init__(self, name): self._value = None self._name = name # External API: def latest_value(self): """Return the latest exchange rate value. May be None if no value is available. """ return self._value def start(self): """Start the background process.""" self._lc = LoopingCall(self._download) # Run immediately, and then every 30 seconds: self._lc.start(30, now=True) def _download(self): """Download the page.""" print("Downloading!") def parse(result): print("Got %r back from Yahoo." % (result,)) values = result.strip().split(",") self._value = float(values) d = getPage( "http://download.finance.yahoo.com/d/quotes.csv?e=.csv&f=c4l1&s=%s=X" % (self._name,)) d.addCallback(parse) d.addErrback(log.err) return d # Blocking wrapper: class ExchangeRate(object): """Blocking API for downloading exchange rate.""" def __init__(self, name): self._exchange = _ExchangeRate(name) @run_in_reactor def start(self): self._exchange.start() @wait_for(timeout=1) def latest_value(self): """Return the latest exchange rate value. May be None if no value is available. """ return self._exchange.latest_value() EURUSD = ExchangeRate("EURUSD") app = Flask(__name__) @app.route('/') def index(): rate = EURUSD.latest_value() if rate is None: rate = "unavailable, please refresh the page" return "Current EUR/USD exchange rate is %s." % (rate,) if __name__ == '__main__': import sys, logging logging.basicConfig(stream=sys.stderr, level=logging.DEBUG) EURUSD.start() app.run()
Minimize decorated code¶
It’s best to have as little code as possible in the
@wait_for/@run_in_reactor wrappers. As this code straddles two
worlds (or at least, two threads) it is more difficult to unit test. Having an
extra layer between this code and the application code is also useful in this
regard as well: Twisted code can be pushed into the lower-level Twisted layer,
and code hiding the Twisted details from the application code can be pushed
into the higher-level layer.