Signals and Slots¶
Due to the nature of Qt, QObject
s require a way to communicate, and that’s
the reason for this mechanism to be a central feature of Qt.
In simple terms, you can understand Signal and Slots in the same way you interact with the lights in your house. When you move the light switch (signal) you get a result which may be that your light bulbs are switched on/off (slot).
While developing interfaces, you can get a real example by the effect of clicking a button: the ‘click’ will be the signal, and the slot will be what happens when that button is clicked, like closing a window, saving a document, etc.
Note
If you have experience with other frameworks or toolkits, it’s likely that you read a concept called ‘callback’. Leaving the implementation details aside, a callback will be related to a notification function, passing a pointer to a function in case it’s required due to the events that happen in your program. This approach might sound similar, but there are essential differences that make it an unintuitive approach, like ensuring the type correctness of callback arguments, and some others.
All classes that inherit from QObject
or one of its subclasses, like
QWidget
can contain signals and slots. Signals are emitted by objects
when they change their state in a way that may be interesting to other objects.
This is all the object does to communicate. It does not know or care whether
anything is receiving the signals it emits. This is true information
encapsulation, and ensures that the object can be used as a software component.
Slots can be used for receiving signals, but they are also normal member functions. Just as an object does not know if anything receives its signals, a slot does not know if it has any signals connected to it. This ensures that truly independent components can be created with Qt.
You can connect as many signals as you want to a single slot, and a signal can be connected to as many slots as you need. It is even possible to connect a signal directly to another signal. (This will emit the second signal immediately whenever the first is emitted.)
Qt’s widgets have many predefined signals and slots. For example, QAbstractButton (base class of buttons in Qt) has a clicked() signal and QLineEdit (single line input field) has a slot named ‘clear()`. So, a text input field with a button to clear the text could be implemented by placing a QToolButton to the right of the QLineEdit and connecting its clicked() signal to the slot ‘clear()`. This is done using the connect() method of the signal:
button = QToolButton() line_edit = QLineEdit() button.clicked.connect(line_edit.clear)
connect() returns a QMetaObject.Connection object, which can be used with the disconnect() method to sever the connection.
Signals can also be connected to free functions:
import sys from PySide6.QtWidgets import QApplication, QPushButton def function(): print("The 'function' has been called!") app = QApplication() button = QPushButton("Call function") button.clicked.connect(func) button.show() sys.exit(app.exec())
Connections can be spelled out in code or, for widget forms, designed in the Signal-Slot Editor of Qt Designer.
The Signal Class¶
When writing classes in Python, signals are declared as class level
variables of the class QtCore.Signal()
. A QWidget-based button
that emits a clicked() signal could look as
follows:
from PySide6.QtCore import Qt, Signal from PySide6.QtWidgets import QWidget class Button(QWidget): clicked = Signal(Qt.MouseButton) ... def mousePressEvent(self, event): self.clicked.emit(event.button())
The constructor of Signal
takes a tuple or a list of Python types
and C types:
signal1 = Signal(int) # Python types signal2 = Signal(QUrl) # Qt Types signal3 = Signal(int, str, int) # more than one type signal4 = Signal((float,), (QDate,)) # optional types
In addition to that, it can receive also a named argument name
that defines
the signal name. If nothing is passed, the new signal will have the same name
as the variable that it is being assigned to.
# TODO signal5 = Signal(int, name='rangeChanged') # ... rangeChanged.emit(...)
Another useful option of Signal
is the arguments name,
useful for QML applications to refer to the emitted values by name:
sumResult = Signal(int, arguments=['sum'])Connections { target: ... function onSumResult(sum) { // do something with 'sum' }
The Slot Class¶
Slots in QObject-derived classes should be indicated by the decorator
@QtCore.Slot()
. Again, to define a signature just pass the types
similar to the QtCore.Signal()
class.
@Slot(str) def slot_function(self, s): ...
Slot()
also accepts a name
and a result
keyword.
The result
keyword defines the type that will be returned and can be a C or
Python type. The name
keyword behaves the same way as in Signal()
. If
nothing is passed as name then the new slot will have the same name as the
function that is being decorated.
Overloading Signals and Slots with Different Types¶
It is actually possible to use signals and slots of the same name with different parameter type lists. This is legacy from Qt 5 and not recommended for new code. In Qt 6, signals have distinct names for different types.
The following example uses two handlers for a Signal and a Slot to showcase the different functionality.
import sys from PySide6.QtWidgets import QApplication, QPushButton from PySide6.QtCore import QObject, Signal, Slot class Communicate(QObject): # create two new signals on the fly: one will handle # int type, the other will handle strings speak = Signal((int,), (str,)) def __init__(self, parent=None): super().__init__(self, parent) self.speak[int].connect(self.say_something) self.speak[str].connect(self.say_something) # define a new slot that receives a C 'int' or a 'str' # and has 'say_something' as its name @Slot(int) @Slot(str) def say_something(self, arg): if isinstance(arg, int): print("This is a number:", arg) elif isinstance(arg, str): print("This is a string:", arg) if __name__ == "__main__": app = QApplication(sys.argv) someone = Communicate() # emit 'speak' signal with different arguments. # we have to specify the str as int is the default someone.speak.emit(10) someone.speak[str].emit("Hello everybody!")
Specifying Signals and Slots by Method Signature Strings¶
Signals and slots can also be specified as C++ method signature strings passed through the SIGNAL() and/or SLOT() functions:
from PySide6.QtCore import SIGNAL, SLOT button.connect(SIGNAL("clicked(Qt::MouseButton)"), action_handler, SLOT("action1(Qt::MouseButton)"))
This is not recommended for connecting signals, it is mostly used to specify signals for methods like QWizardPage::registerField():
wizard.registerField("text", line_edit, "text", SIGNAL("textChanged(QString)"))
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