I think one misunderstanding here is about how instances of
Deferred are meant to be used.
You should think of
Deferred as having two different kinds of (albeit highly related) uses.
One use is to be able to publish an event from some code that knows how to notice that events have happened to other code that might be interested to know that the event has happened.
One example of this use is
ClientCreator.connectTCP: the implementation of this API knows when a TCP connection attempt has succeeded (or failed) and uses a
Deferred to publish this information to other code. Code that is using
Deferred like this is code that actually instantiates
d = Deferred()) and that later uses
The other use of
Deferred is to allow code that is interested in events that has happened to learn that those events have happened. For example, this your application that wants a TCP connection in order to exchange data - but needs to wait while one is being set up before it can proceed. Code that is using
Deferred like this is code that uses
Deferred.cancel in recent versions of Twisted).
Deferred.addCallback is the API you use to specify what code to run when a
Deferred eventually gets a result.
Deferred.callback is the API that you use to supply a result to a
Deferred. And, importantly, a
Deferred can only ever be given one result. Each
Deferred instance represents the completion of a single operation or the occurrence of a single event.
There are certain some exceptions and some further subtleties but a good rule of thumb is that if your code didn't instantiate the
Deferred then your code should not use its
errback) methods. Calling one of those is the job for whatever code created the
Given that, I hope it's clear that the use of
Deferred APIs in this code has some problems that need to be addressed:
myobjectx = MODBUSLIB.protocol.ClientCreator(reactor, ModbusClientProtocol
if ('Gigiisclicked' in existkeys):
Most directly, you shouldn't be calling
myobjectx.callback here. That's
ClientCreator.connectTCP's job (on top of that,
beginAsynchronousTest probably doesn't make sense as a result for this
Deferred to have).
Instead, I think you want to use methods of the
ModbusClientProtocol instance that
ClientCreator.connectTCP will eventually create for you. In the example you linked to, notice that
beginAsynchronousTest is defined to accept one argument named
beginAsynchronousTest is passed to the
addCallback method of the
Deferred returned by
ClientCreator.connectTCP this means it will be called with an instance of the protocol the
ClientCreator was initialized with (in this case,
beginAsynchronousTest will be called as soon as the
Deferred is given its result by the implementation of
ClientCreator - in other words, it will be called as soon as the connection is established. Setting up a TCP connection takes a somewhat arbitrary amount of time since it involves exchanging data with arbitrary other computers over arbitrary network links - there's no telling how long those resources will take to complete their part of the connection setup.
beginAsynchronousTest is called you have a connection - represented by the
ModbusClientProtocol instance passed in to it. This is the point in your program where you might be able to start doing multiple things (for example, doing something each time a button is clicked).
At this point the
Deferred your program started out with (called
myobjectx in the snippets of code above) is done and no longer useful or interesting so you won't be using it anymore.
Instead, you'll be calling methods of
write_coil or whatever else you want to do). Each of these methods probably returns a brand new
Deferred representing the result of that particular operation. You'll want to use
addCallback with these in order to learn about their results.
The other place people often stumble is figuring out how to make these additional method calls. If you're adding code to the body of
beginAsynchronousTest then it's fairly straightforward how to do this:
reading = client.read_coils(1, 1)
However, I suspect you won't want to add your button handling code to the body of
beginAsynchronousTest. Instead, you probably have an event handler somewhere else in your program that gets called any time a button has been pressed. Fortunately, it's not much more complicated to deal with this situation.
The key is just to remember that any time you have a reference to the connection you'll be able to use it. Inside the body of
beginAsynchronousTest you have a reference to it - the
client parameter. You can make this reference available to other parts of your program too: setting an attribute on an object that is shared by the necessary parts of your program is one common, fairly good way to do this.
self.client = None
creator = MODBUSLIB.protocol.ClientCreator(reactor, ModbusClientProtocol)
connecting = creator.connectTCP("localhost", Defaults.Port)
def _connected(self, client):
self.client = client
def buttonClicked(self, existkeys):
if self.client is not None:
if "Gigiisclicked" in existkeys:
Notice how the
client attribute of
ButtonModbusSomething starts off as
None and how
buttonClicked needs to check for this case. As mentioned above, setting up a connection can take some time and the only way you know how long is to wait for
_connected to be called. This check ensures that if a button is clicked before the connection exists that the event is just ignored (you may want to handle this more nicely - for example, by starting with the user interface in a disabled state and then switching it on only when a connection is set up).
Also, I've left out the code that you probably also want to handle your connection being lost. When this happens, the
client attribute is no longer useful. It is still a reference to the
ModbusClientProtocol which was connected, but since that protocol instance no longer has a connection it's hard to do anything useful with. You will probably want to re-disable the user interface when the connection is lost or at least start ignoring button presses again.
Also, notice that
ClientCreator actually comes from