QSignalSpy#
The QSignalSpy
class enables introspection of signal emission. More…
Synopsis#
Functions#
Note
This documentation may contain snippets that were automatically translated from C++ to Python. We always welcome contributions to the snippet translation. If you see an issue with the translation, you can also let us know by creating a ticket on https:/bugreports.qt.io/projects/PYSIDE
Detailed Description#
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
QSignalSpy
can connect to any signal of any object and records its emission. QSignalSpy
itself is a list of QVariant lists. Each emission of the signal will append one item to the list, containing the arguments of the signal.
The following example records all signal emissions for the clicked()
signal of a QCheckBox:
box = ... spy = QSignalSpy(box, SIGNAL(clicked(bool))) # do something that triggers the signal box.animateClick() QCOMPARE(spy.count(), 1) # make sure the signal was emitted exactly one time arguments = spy.takeFirst() # take the first signal QVERIFY(arguments.at(0).toBool() == True) # verify the first argument
spy.takeFirst()
returns the arguments for the first emitted signal, as a list of QVariant objects. The clicked()
signal has a single bool argument, which is stored as the first entry in the list of arguments.
The example below catches a signal from a custom object:
spy = QSignalSpy(myCustomObject, SIGNAL(mySignal(int,QString,double))) myCustomObject.doSomething() # trigger emission of the signal arguments = spy.takeFirst() QVERIFY(arguments.at(0).typeId() == QMetaType.Int) QVERIFY(arguments.at(1).typeId() == QMetaType.QString) QVERIFY(arguments.at(2).typeId() == QMetaType.Double)
Note
Non-standard data types need to be registered, using the qRegisterMetaType() function, before you can create a QSignalSpy
. For example:
qRegisterMetaType<SomeStruct>()
spy = QSignalSpy(model, SIGNAL(whatever(SomeStruct)))
To retrieve the instance, you can use qvariant_cast:
# get the first argument from the first received signal: result = SomeStruct(spy.at(0).at(0))
Verifying Signal Emissions#
The QSignalSpy
class provides an elegant mechanism for capturing the list of signals emitted by an object. However, you should verify its validity after construction. The constructor does a number of sanity checks, such as verifying that the signal to be spied upon actually exists. To make the diagnosis of test failures easier, the results of these checks should be checked by calling QVERIFY(spy.isValid())
before proceeding further with a test.
See also
QVERIFY()
- class PySide6.QtTest.QSignalSpy(signal)#
PySide6.QtTest.QSignalSpy(obj, signal)
PySide6.QtTest.QSignalSpy(obj, aSignal)
- Parameters:
signal –
PySideSignalInstance
obj –
PySide6.QtCore.QObject
aSignal – str
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Constructs a new QSignalSpy
that listens for emissions of the signal
from the QObject obj
. If QSignalSpy
is not able to listen for a valid signal (for example, because obj
is None
or signal
does not denote a valid signal of obj
), an explanatory warning message will be output using qWarning() and subsequent calls to isValid()
will return false.
This constructor is convenient to use when Qt’s meta-object system is heavily used in a test.
Basic usage example:
object = QObject() mo = object.metaObject() signalIndex = mo.indexOfSignal("objectNameChanged(QString)") signal = mo.method(signalIndex) spy = QSignalSpy(object, signal) object.setObjectName("A object() name") QCOMPARE(spy.count(), 1)
Imagine we need to check whether all properties of the QWindow class that represent minimum and maximum dimensions are properly writable. The following example demonstrates one of the approaches:
def writeMinMaxDimensionalProps_data(self): QTest.addColumn<int>("propertyIndex") # Collect all relevant properties mo = QWindow.staticMetaObject() for i in range(mo.propertyOffset(), mo.propertyCount()): property = mo.property(i) # ...that have type int if property.type() == QVariant.Int: re = QRegularExpression("^minimum|maximum") name = property.name() # ...and start with "minimum" or "maximum" if re.match(name).hasMatch(): QTest.addRow("%s", name) << i def writeMinMaxDimensionalProps(self): QFETCH(int, propertyIndex) property = QWindow.staticMetaObject.property(propertyIndex) QVERIFY(property.isWritable()) QVERIFY(property.hasNotifySignal()) window = QWindow() spy = QSignalSpy(window, property.notifySignal()) QVERIFY(property.write(window, 42)) QCOMPARE(spy.count(), 1)
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Constructs a new QSignalSpy
that listens for emissions of the signal
from the QObject object
. If QSignalSpy
is not able to listen for a valid signal (for example, because object
is None
or signal
does not denote a valid signal of object
), an explanatory warning message will be output using qWarning() and subsequent calls to isValid()
will return false.
Example:
spy = QSignalSpy(myPushButton, SIGNAL(clicked(bool)))
- PySide6.QtTest.QSignalSpy.at(arg__1)#
- Parameters:
arg__1 – int
- Return type:
.list of QVariant
- PySide6.QtTest.QSignalSpy.count()#
- Return type:
int
- PySide6.QtTest.QSignalSpy.isValid()#
- Return type:
bool
Returns true
if the signal spy listens to a valid signal, otherwise false.
- PySide6.QtTest.QSignalSpy.signal()#
- Return type:
Returns the normalized signal the spy is currently listening to.
- PySide6.QtTest.QSignalSpy.size()#
- Return type:
int
- PySide6.QtTest.QSignalSpy.wait(timeout)#
- Parameters:
timeout – int
- Return type:
bool
This is an overloaded function, equivalent passing timeout
to the chrono overload:
wait(std::chrono::milliseconds{timeout});
Returns true
if the signal was emitted at least once in timeout
, otherwise returns false
.