Qt5 Signal And Slots Example
Qt5 Tutorial: QTcpSocket with Signals and Slots. In this tutorial, we will learn how to download a file using QTcpSocket.This is a continued tutorial from the previous one, Qt 5 QTcpSocket.We're going to use Signal and Slot mechanism instead of calling functions manually(?).
- In this tutorial we will learn How to use signal and slots in qt. File-New File or Project Applications-Qt Gui Application-Choose We keep the class as MainWindow as given by default.
- It can be difficult for newcomers to configure signal and slot in PyQt5 who have no prior experience in Qt programming. Signal-Slot is one of the fundamental topics of Qt one should have a firm.
Python Qt5 Example
Earlier this week, I posted an example of integrating QML2 and C++. In it I showed how to call a C++ method from QML, but finished my post with this statement.
I’m still new to Qt, so this may not be the best way. It looks like you can also use signals, which would probably be better as it means your QML application isn’t tied to your C++ implementation, but I haven’t yet got that working.
I have now found a way to use signals and slots to do this, which I will describe here.
Signals and Slots
Signals and Slots are a feature of Qt used for communication between objects. When something happens to an object, it can emit a signal. Zero or more objects can listen for this signal using a slot, and act on it. The signal doesn’t know if anything is listening to it, and the slot doesn’t know what object called it.
This allows you to design and build a loosely coupled application, giving you the flexibility to change, add or remove features of one component without updating all its dependencies, so long as you continue to emit the same signals and listen on the same slots.
You can see why this might be useful in GUI programming. When a user enters some input, you may want to do a number of things with it. Maybe you want to update the GUI with a progress bar, then kick off a function to handle this input. This function might emit a signal letting others know its progress, which the progress bar could listen to and update the GUI. And so on.
Qt5 Signals And Slots Example
Even outside of GUI programming this could be useful. You might have an object watching the filesystem for changes. When a change happens, you could emit a signal to let other objects know about this change. One object might run a process against this file, while another object updates a cache of the filesystem.
The example application
I’m going to create the same example application as I did before. It will contain a text field and a button. You enter some text in the text field, and once you click the button the text will be converted to upper-case. The conversion to upper-case will be done in C++, and the interface drawn in QML2.
The source of the finished application is available on GitHub.
Emitting a signal from QML and listening to it from C++
To create a signal in QML, simply add the following line to the object which will emit the signal.
Here I have created a signal, submitTextField
, which will pass a string as an argument to any connecting slots (if they choose to receive it).
I’m going to add this signal to the Window
. I will emit the signal when the button is pressed, passing the value of the text field. Here is the full QML document.
We can run that and click the button. The signal is being emitted, but because no slots are listening to it nothing happens.
Let’s create a C++ class to listen to this signal. I’m going to call it HandleTextField
, and it will have a slot called handleSubmitTextField
. The header file looks like this.
The class file has a simple implementation for handleSubmitTextField
.
To connect the QML signal to the C++ slot, we use QObject::connect
. Add the following to main.cpp
.
We need an instance of HandleTextField
, and the QML Window object. Then we can connect the windows submitTextField
signal to the handleSubmitTextField
slot. Running the application now and you should get a debug message showing the text being passed to C++.
Emitting a signal from C++ and listening to it from QML
Now we want to convert the string to upper-case and display it in the text field. Lets create a signal in our C++ class by adding the following to the header file.
Then change the handleSubmitTextField
function to emit this signal with the upper-cased text.
Notice we are passing the text as a QVariant
. This is important, for the reasons well described in this Stack Overflow answer.
The reason for the QVariant is the Script based approach of QML. The QVariant basically contains your data and a desription of the data type, so that the QML knows how to handle it properly. That’s why you have to specify the parameter in QML with String, int etc.. But the original data exchange with C++ remains a QVariant
We now need a slot in QML to connect this signal to. It will handle the updating of the text field, and is simply a function on the Window
.
Qt Signal Slot Example C
Finally we use QObject::connect
to make the connection.
Run the application, and you should now see your text be converted to upper-case.
Next steps
It feels like more work to use signals and slots, instead of method calls. But you should be able to see the benefits of a loosely coupled application, especially for larger applications.
I’m not sure a handler class for the text field is the best approach for this in practice. In a real application I think you would emit user actions in your GUI and have classes to implement your application logic without knowledge of where that data is coming from. As I gain more experience with Qt, I will update the example with the best practice.
Check out the full application on GitHub.
Cover image by Beverley Goodwin.