Old-style Signal and Slot Support

This section describes the older style for connecting signals and slots. It uses the same API that a C++ application would use. This has a number of advantages.

  • It is well understood and documented.
  • Any future changes to the C++ API should be easily included.

It also has a number of disadvantages.

  • It requires knowledge of the C++ types of signal arguments.
  • It is error prone in that if you mis-type the signal name or signature then no exception is raised, either when the signal is connected or emitted.
  • It is verbose.
  • It is not Pythonic.

This older style of connecting signals and slots will continue to be supported throughout the life of PyQt v4.

PyQt Signals and Qt Signals

Qt signals are statically defined as part of a C++ class. They are referenced using the QtCore.SIGNAL() function. This method takes a single string argument that is the name of the signal and its C++ signature. For example:

QtCore.SIGNAL('finished(int)')

The returned value is normally passed to the QtCore.QObject.connect() method.

PyQt allows new signals to be defined dynamically. The act of emitting a PyQt signal implicitly defines it. PyQt v4 signals are also referenced using the QtCore.SIGNAL() function.

The PyQt_PyObject Signal Argument Type

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

QtCore.SIGNAL('finished(PyQt_PyObject)')

While this would normally be used for passing objects like lists and dictionaries as signal arguments, it can be used for any Python type. Its advantage when passing, for example, an integer is that the normal conversions from a Python object to a C++ integer and back again are not required.

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 object after the call to QtCore.QObject.emit(), even if a connection is queued.

Short-circuit Signals

There is also a special form of a PyQt v4 signal known as a short-circuit signal. Short-circut signals implicitly declare each argument as being of type PyQt_PyObject.

Short-circuit signals do not have a list of arguments or the surrounding parentheses.

Short-circuit signals may only be connected to slots that have been implemented in Python. They cannot be connected to Qt slots or the Python callables that wrap Qt slots.

PyQt Slots and Qt Slots

Qt slots are statically defined as part of a C++ class. They are referenced using the QtCore.SLOT() function. This method takes a single string argument that is the name of the slot and its C++ signature. For example:

QtCore.SLOT('done(int)')

The returned value is normally passed to the QtCore.QObject.connect() method.

PyQt allows any Python callable to be used as a slot, not just Qt slots. This is done by simply referencing the callable. Because Qt slots are implemented as class methods they are also available as Python callables. Therefore it is not usually necessary to use QtCore.SLOT() for Qt slots. However, doing so is more efficient as it avoids a conversion to Python and back to C++.

Qt allows a signal to be connected to a slot that requires fewer arguments than the signal passes. The extra arguments are quietly discarded. PyQt slots can be used in the same way.

Note that when a slot is a Python callable its reference count is not increased. This means that a class instance can be deleted without having to explicitly disconnect any signals connected to its methods. However, if a slot is a lambda function or a partial function then its reference count is automatically incremented to prevent it from being immediately garbage collected.

Connecting Signals and Slots

Connections between signals and slots (and other signals) are made using the QtCore.QObject.connect() method. For example:

QtCore.QObject.connect(a, QtCore.SIGNAL('QtSig()'), pyFunction)
QtCore.QObject.connect(a, QtCore.SIGNAL('QtSig()'), pyClass.pyMethod)
QtCore.QObject.connect(a, QtCore.SIGNAL('QtSig()'), b, QtCore.SLOT('QtSlot()'))
QtCore.QObject.connect(a, QtCore.SIGNAL('PySig()'), b, QtCore.SLOT('QtSlot()'))
QtCore.QObject.connect(a, QtCore.SIGNAL('PySig'), pyFunction)

Disconnecting signals works in exactly the same way using the QtCore.QObject.disconnect() method. However, not all the variations of that method are supported by PyQt. Signals must be disconnected one at a time.

Emitting Signals

Any instance of a class that is derived from the QtCore.QObject class can emit a signal using its emit() method. This takes a minimum of one argument which is the signal. Any other arguments are passed to the connected slots as the signal arguments. For example:

a.emit(QtCore.SIGNAL('clicked()'))
a.emit(QtCore.SIGNAL('pySig'), "Hello", "World")

The QtCore.pyqtSignature() Decorator

The QtCore.pyqtSignature() serves the same purpose as the pyqtSlot() decorator but has a less Pythonic API.