And the observer pattern feels like too much code for just one thing that going to be listening to it.
Actually, the observer pattern is exactly what you need, and you don't have to use PyQt signal/slots at all. The "right" way to structure your code is to write the business logic have no idea about the existence of the GUI, but the GUI should have (weak) references to the business logic.
I usually start up my PyQt applications roughly like this:
import PyQt4.QtGui as QtGui
from businesslogic import MyBusinessLogicClass
from guimodule import MyGuiClass
app = QtGui.QApplication(sys.argv)
business_object = MyBusinessLogicClass()
gui = MyGuiClass(weakref.proxy(business_object))
Note that the gui receives a reference to the business logic object (through a weak reference). The gui can therefore send data to the business logic when the human interacts with the gui.
Getting information from the business logic to the gui
Your question was about how the business logic can get data to the gui without having explicit references to the gui in its code. I've solved this by making a decorator that I can put on functions and methods which I want the the gui to be able to know about. Suppose the business logic looks like this
from observed import event # Bear with me for a minute.
def do_something_interesting(self, arg):
print("logic back-end did something interesting with arg=%s"%(arg,))
That little decorator
@event makes it so that other things can sign up to be notified whenever
do_something_interesting is called. The gui does this
def __init__(self, business):
self.business = business
def notify(self, arg):
<present notification to the user>
MyBusinessLogicClass knows nothing about the gui. The only invasion into the code was the
@event decorator which is completely ignorant of the GUI and in fact entirely ignorant of PyQt. Note also that the
arg passed into
MyBusinessLogicClass is passed along to the observing method
notify in the GUI.
Implementation of the observer pattern
Ok, this is all great, but it relies on the existence of something implementing the observer pattern to get that
@event decorator. You can get my implementation, called observed on GitHub, or you can just do
$ pip install observed
If you're on windows just download the source distribution from github and then in the root directory do
> python setup.py install
I really do hope this is helpful. I developed observed specifically for this use case. It is very simple but addresses several shortcomings of other observer pattern implementations I've seen in python.
EDIT: You said you wanted to get this all working without changing your custom class. While that is possible, you'd have to (I think) mess with the nature of your methods at run time, which is generally frowned upon because it's more confusing and fragile than doing things directly in the code. If adding the
@event decorator to some methods is too intrusive, you can subclass your custom class and add the decorator in the subclass. You can even use a custom metaclass to apply the decorator automagically.