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One of the key features of Qt is its use of signals and slots to communicatebetween objects. Their use encourages the development of reusable components.

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A signal is emitted when something of potential interest happens. A slot is aPython callable. If a signal is connected to a slot then the slot is calledwhen the signal is emitted. If a signal isn't connected then nothing happens.The code (or component) that emits the signal does not know or care if thesignal is being used.

Execution of Python signal handlers¶. A Python signal handler does not get executed inside the low-level (C) signal handler. Instead, the low-level signal handler sets a flag which tells the virtual machine to execute the corresponding Python signal handler at a later point(for example at the next bytecode instruction). This signal does nothing, by itself; it must be connected to a slot, which is an object that acts as a recipient for a signal and, given one, acts on it. Connecting Built-In PySide/PyQt Signals. Qt widgets have a number of signals built in. For example, when a QPushButton is clicked, it emits its clicked signal.

The signal/slot mechanism has the following features.

  • A signal may be connected to many slots.
  • A signal may also be connected to another signal.
  • Signal arguments may be any Python type.
  • A slot may be connected to many signals.
  • Connections may be direct (ie. synchronous) or queued (ie. asynchronous).
  • Connections may be made across threads.
  • Signals may be disconnected.

Unbound and Bound Signals¶

A signal (specifically an unbound signal) is a class attribute. When a signalis referenced as an attribute of an instance of the class then PyQt5automatically binds the instance to the signal in order to create a boundsignal. This is the same mechanism that Python itself uses to create boundmethods from class functions.

A bound signal has connect(), disconnect() and emit() methods thatimplement the associated functionality. It also has a signal attributethat is the signature of the signal that would be returned by Qt's SIGNAL()macro.

A signal may be overloaded, ie. a signal with a particular name may supportmore than one signature. A signal may be indexed with a signature in order toselect the one required. A signature is a sequence of types. A type is eithera Python type object or a string that is the name of a C++ type. The name of aC++ type is automatically normalised so that, for example, QVariant can beused instead of the non-normalised constQVariant&.

If a signal is overloaded then it will have a default that will be used if noindex is given.

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When a signal is emitted then any arguments are converted to C++ types ifpossible. If an argument doesn't have a corresponding C++ type then it iswrapped in a special C++ type that allows it to be passed around Qt's meta-typesystem while ensuring that its reference count is properly maintained.

Defining New Signals with pyqtSignal()

PyQt5 automatically defines signals for all Qt's built-in signals. New signalscan be defined as class attributes using the pyqtSignal()factory.

PyQt5.QtCore.pyqtSignal(types[, name[, revision=0[, arguments=[]]]])

Create one or more overloaded unbound signals as a class attribute.

Parameters:
  • types -- the types that define the C++ signature of the signal. Each type maybe a Python type object or a string that is the name of a C++ type.Alternatively each may be a sequence of type arguments. In this caseeach sequence defines the signature of a different signal overload.The first overload will be the default.
  • name -- the name of the signal. If it is omitted then the name of the classattribute is used. This may only be given as a keyword argument.
  • revision -- the revision of the signal that is exported to QML. This may only begiven as a keyword argument.
  • arguments -- the sequence of the names of the signal's arguments that is exported toQML. This may only be given as a keyword argument.
Return type:

an unbound signal

The following example shows the definition of a number of new signals:

New signals should only be defined in sub-classes ofQObject. They must be part of the class definition andcannot be dynamically added as class attributes after the class has beendefined.

New signals defined in this way will be automatically added to the class'sQMetaObject. This means that they will appear in QtDesigner and can be introspected using the QMetaObjectAPI.

Overloaded signals should be used with care when an argument has a Python typethat has no corresponding C++ type. PyQt5 uses the same internal C++ class torepresent such objects and so it is possible to have overloaded signals withdifferent Python signatures that are implemented with identical C++ signatureswith unexpected results. The following is an example of this:

Connecting, Disconnecting and Emitting Signals¶

Signals are connected to slots using the connect() method of a boundsignal.

connect(slot[, type=PyQt5.QtCore.Qt.AutoConnection[, no_receiver_check=False]])

Connect a signal to a slot. An exception will be raised if the connectionfailed.

Parameters:
  • slot -- the slot to connect to, either a Python callable or another boundsignal.
  • type -- the type of the connection to make.
  • no_receiver_check -- suppress the check that the underlying C++ receiver instance stillexists and deliver the signal anyway.

Signals are disconnected from slots using the disconnect() method of abound signal.

disconnect([slot])

Disconnect one or more slots from a signal. An exception will be raised ifthe slot is not connected to the signal or if the signal has no connectionsat all.

Parameters:slot -- the optional slot to disconnect from, either a Python callable oranother bound signal. If it is omitted then all slots connected to thesignal are disconnected.

Signals are emitted from using the emit() method of a bound signal.

emit(*args)

Emit a signal.

Parameters:args -- the optional sequence of arguments to pass to any connected slots.

The following code demonstrates the definition, connection and emit of asignal without arguments:

The following code demonstrates the connection of overloaded signals:

Connecting Signals Using Keyword Arguments¶

It is also possible to connect signals by passing a slot as a keyword argumentcorresponding to the name of the signal when creating an object, or using thepyqtConfigure() method. For example the followingthree fragments are equivalent:

The pyqtSlot() Decorator¶

Although PyQt5 allows any Python callable to be used as a slot when connectingsignals, it is sometimes necessary to explicitly mark a Python method as beinga Qt slot and to provide a C++ signature for it. PyQt5 provides thepyqtSlot() function decorator to do this.

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PyQt5.QtCore.pyqtSlot(types[, name[, result[, revision=0]]])

Decorate a Python method to create a Qt slot.

Parameters:
  • types -- the types that define the C++ signature of the slot. Each type may bea Python type object or a string that is the name of a C++ type.
  • name -- the name of the slot that will be seen by C++. If omitted the name ofthe Python method being decorated will be used. This may only be givenas a keyword argument.
  • revision -- the revision of the slot that is exported to QML. This may only begiven as a keyword argument.
  • result -- the type of the result and may be a Python type object or a string thatspecifies a C++ type. This may only be given as a keyword argument.

Connecting a signal to a decorated Python method also has the advantage ofreducing the amount of memory used and is slightly faster.

For example:

It is also possible to chain the decorators in order to define a Python methodseveral times with different signatures. For example:

The PyQt_PyObject Signal Argument Type¶

It is possible to pass any Python object as a signal argument by specifyingPyQt_PyObject as the type of the argument in the signature. For example:

This would normally be used for passing objects where the actual Python typeisn't known. It can also be used to pass an integer, for example, so that thenormal conversions from a Python object to a C++ integer and back again are notrequired.

The reference count of the object being passed is maintained automatically.There is no need for the emitter of a signal to keep a reference to the objectafter the call to finished.emit(), even if a connection is queued.

Connecting Slots By Name¶

PyQt5 supports the connectSlotsByName() functionthat is most commonly used by pyuic5 generated Python code toautomatically connect signals to slots that conform to a simple namingconvention. However, where a class has overloaded Qt signals (ie. with thesame name but with different arguments) PyQt5 needs additional information inorder to automatically connect the correct signal.

For example the QSpinBox class has the followingsignals:

When the value of the spin box changes both of these signals will be emitted.If you have implemented a slot called on_spinbox_valueChanged (whichassumes that you have given the QSpinBox instance thename spinbox) then it will be connected to both variations of the signal.Therefore, when the user changes the value, your slot will be called twice -once with an integer argument, and once with a string argument.

The pyqtSlot() decorator can be used to specify which ofthe signals should be connected to the slot.

For example, if you were only interested in the integer variant of the signalthen your slot definition would look like the following:

If you wanted to handle both variants of the signal, but with different Pythonmethods, then your slot definitions might look like the following:

Graphical applications (GUI) are event-driven, unlike console or terminal applications. A users action like clicks a button or selecting an item in a list is called an event.

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If an event takes place, each PyQt5 widget can emit a signal. A signal does not execute any action, that is done by a slot.

Related course:
Create GUI Apps with PyQt5

Signals and slot introduction
Consider this example:

The button click (signal) is connected to the action (slot). In this example, the method slot_method will be called if the signal emits.

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This principle of connecting slots methods or function to a widget, applies to all widgets,

or we can explicitly define the signal:

PyQt supports many type of signals, not just clicks.

Example
We can create a method (slot) that is connected to a widget. A slot is any callable function or method.

On running the application, we can click the button to execute the action (slot).

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