QMetaMethod#
The QMetaMethod
class provides meta-data about a member function. More…
Synopsis#
Functions#
def
access
()def
enclosingMetaObject
()def
invoke
(object, val0[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]])def
invoke
(object, returnValue[, val0=QGenericArgument(nullptr)[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]]])def
invoke
(object, connectionType, val0[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]])def
invoke
(object, connectionType, returnValue[, val0=QGenericArgument(nullptr)[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]]])def
invoke
(object, type[, val0={}[, val1={}[, val2={}[, val3={}[, val4={}[, val5={}[, val6={}[, val7={}[, val8={}[, val9={}]]]]]]]]]])def
invoke
(object, type, ret[, val0={}[, val1={}[, val2={}[, val3={}[, val4={}[, val5={}[, val6={}[, val7={}[, val8={}[, val9={}]]]]]]]]]])def
invoke
(object[, val0={}[, val1={}[, val2={}[, val3={}[, val4={}[, val5={}[, val6={}[, val7={}[, val8={}[, val9={}]]]]]]]]]])def
invoke
(object, ret[, val0={}[, val1={}[, val2={}[, val3={}[, val4={}[, val5={}[, val6={}[, val7={}[, val8={}[, val9={}]]]]]]]]]])def
invokeOnGadget
(gadget, val0[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]])def
invokeOnGadget
(gadget, returnValue[, val0=QGenericArgument(nullptr)[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]]])def
isConst
()def
isValid
()def
methodIndex
()def
methodSignature
()def
methodType
()def
name
()def
__ne__
(m2)def
__eq__
(m2)def
parameterCount
()def
parameterMetaType
(index)def
parameterNames
()def
parameterType
(index)def
parameterTypeName
(index)def
parameterTypes
()def
relativeMethodIndex
()def
returnMetaType
()def
returnType
()def
revision
()def
tag
()def
typeName
()
Static functions#
def
fromSignal
(signal)
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#
A QMetaMethod
has a methodType()
, a methodSignature()
, a list of parameterTypes()
and parameterNames()
, a return typeName()
, a tag()
, and an access()
specifier. You can use invoke() to invoke the method on an arbitrary QObject
.
- class PySide6.QtCore.QMetaMethod#
- PySide6.QtCore.QMetaMethod.Access#
This enum describes the access level of a method, following the conventions used in C++.
Constant
Description
QMetaMethod.Private
QMetaMethod.Protected
QMetaMethod.Public
- PySide6.QtCore.QMetaMethod.MethodType#
Constant
Description
QMetaMethod.Method
The function is a plain member function.
QMetaMethod.Signal
The function is a signal.
QMetaMethod.Slot
The function is a slot.
QMetaMethod.Constructor
The function is a constructor.
Returns the access specification of this method (private, protected, or public).
Note
Signals are always public, but you should regard that as an implementation detail. It is almost always a bad idea to emit a signal from outside its class.
See also
- PySide6.QtCore.QMetaMethod.enclosingMetaObject()#
- Return type:
- static PySide6.QtCore.QMetaMethod.fromSignal(signal)#
- Parameters:
signal –
PySideSignalInstance
- Return type:
Returns the meta-method that corresponds to the given signal, or an invalid QMetaMethod if signal is not a signal of the class.
- PySide6.QtCore.QMetaMethod.invoke(object, val0[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]])#
- Parameters:
object –
PySide6.QtCore.QObject
- Return type:
bool
Please use the variadic overload of this function
This function overloads invoke()
.
This overload invokes this method using the connection type AutoConnection
and ignores return values.
- PySide6.QtCore.QMetaMethod.invoke(object, returnValue[, val0=QGenericArgument(nullptr)[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]]])
- Parameters:
object –
PySide6.QtCore.QObject
returnValue –
PySide6.QtCore.QGenericReturnArgument
- Return type:
bool
Please use the variadic overload of this function
This function overloads invoke()
.
This overload always invokes this method using the connection type AutoConnection
.
- PySide6.QtCore.QMetaMethod.invoke(object, connectionType, val0[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]])
- Parameters:
object –
PySide6.QtCore.QObject
connectionType –
ConnectionType
- Return type:
bool
Please use the variadic overload of this function
This function overloads invoke()
.
This overload can be used if the return value of the member is of no interest.
- PySide6.QtCore.QMetaMethod.invoke(object, connectionType, returnValue[, val0=QGenericArgument(nullptr)[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]]])
- Parameters:
object –
PySide6.QtCore.QObject
connectionType –
ConnectionType
returnValue –
PySide6.QtCore.QGenericReturnArgument
- Return type:
bool
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Please use the variadic overload of this function
Invokes this method on the object object
. Returns true
if the member could be invoked. Returns false
if there is no such member or the parameters did not match.
See the variadic invokeMethod() function for more information. This function should behave the same way as that one, with the following limitations:
The number of parameters is limited to 10.
Parameter names may need to be an exact string match.
Meta types are not automatically registered.
With asynchronous method invocations, the parameters must be of types that are known to Qt’s meta-object system, because Qt needs to copy the arguments to store them in an event behind the scenes. If you try to use a queued connection and get the error message
QMetaMethod.invoke: Unable to handle unregistered datatype 'MyType'
call qRegisterMetaType()
to register the data type before you call QMetaMethod::invoke().
Warning
In addition to the limitations of the variadic invoke() overload, the arguments must have the same type as the ones expected by the method, else, the behavior is undefined.
See also
Q_ARG()
Q_RETURN_ARG()
qRegisterMetaType()
invokeMethod()
- PySide6.QtCore.QMetaMethod.invoke(object, type[, val0={}[, val1={}[, val2={}[, val3={}[, val4={}[, val5={}[, val6={}[, val7={}[, val8={}[, val9={}]]]]]]]]]])
- Parameters:
object –
PySide6.QtCore.QObject
type –
ConnectionType
val0 –
QGenericArgumentHolder
val1 –
QGenericArgumentHolder
val2 –
QGenericArgumentHolder
val3 –
QGenericArgumentHolder
val4 –
QGenericArgumentHolder
val5 –
QGenericArgumentHolder
val6 –
QGenericArgumentHolder
val7 –
QGenericArgumentHolder
val8 –
QGenericArgumentHolder
val9 –
QGenericArgumentHolder
- Return type:
object
- PySide6.QtCore.QMetaMethod.invoke(object, type, ret[, val0={}[, val1={}[, val2={}[, val3={}[, val4={}[, val5={}[, val6={}[, val7={}[, val8={}[, val9={}]]]]]]]]]])
- Parameters:
object –
PySide6.QtCore.QObject
type –
ConnectionType
ret –
QGenericReturnArgumentHolder
val0 –
QGenericArgumentHolder
val1 –
QGenericArgumentHolder
val2 –
QGenericArgumentHolder
val3 –
QGenericArgumentHolder
val4 –
QGenericArgumentHolder
val5 –
QGenericArgumentHolder
val6 –
QGenericArgumentHolder
val7 –
QGenericArgumentHolder
val8 –
QGenericArgumentHolder
val9 –
QGenericArgumentHolder
- Return type:
object
- PySide6.QtCore.QMetaMethod.invoke(object[, val0={}[, val1={}[, val2={}[, val3={}[, val4={}[, val5={}[, val6={}[, val7={}[, val8={}[, val9={}]]]]]]]]]])
- Parameters:
object –
PySide6.QtCore.QObject
val0 –
QGenericArgumentHolder
val1 –
QGenericArgumentHolder
val2 –
QGenericArgumentHolder
val3 –
QGenericArgumentHolder
val4 –
QGenericArgumentHolder
val5 –
QGenericArgumentHolder
val6 –
QGenericArgumentHolder
val7 –
QGenericArgumentHolder
val8 –
QGenericArgumentHolder
val9 –
QGenericArgumentHolder
- Return type:
object
- PySide6.QtCore.QMetaMethod.invoke(object, ret[, val0={}[, val1={}[, val2={}[, val3={}[, val4={}[, val5={}[, val6={}[, val7={}[, val8={}[, val9={}]]]]]]]]]])
- Parameters:
object –
PySide6.QtCore.QObject
ret –
QGenericReturnArgumentHolder
val0 –
QGenericArgumentHolder
val1 –
QGenericArgumentHolder
val2 –
QGenericArgumentHolder
val3 –
QGenericArgumentHolder
val4 –
QGenericArgumentHolder
val5 –
QGenericArgumentHolder
val6 –
QGenericArgumentHolder
val7 –
QGenericArgumentHolder
val8 –
QGenericArgumentHolder
val9 –
QGenericArgumentHolder
- Return type:
object
- PySide6.QtCore.QMetaMethod.invokeOnGadget(gadget, val0[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]])#
- Parameters:
gadget –
void
- Return type:
bool
This is an overloaded function.
Please use the variadic overload of this function
This overload invokes this method for a gadget
and ignores return values.
- PySide6.QtCore.QMetaMethod.invokeOnGadget(gadget, returnValue[, val0=QGenericArgument(nullptr)[, val1=QGenericArgument()[, val2=QGenericArgument()[, val3=QGenericArgument()[, val4=QGenericArgument()[, val5=QGenericArgument()[, val6=QGenericArgument()[, val7=QGenericArgument()[, val8=QGenericArgument()[, val9=QGenericArgument()]]]]]]]]]])
- Parameters:
gadget –
void
returnValue –
PySide6.QtCore.QGenericReturnArgument
- Return type:
bool
Please use the variadic overload of this function
Invokes this method on a Q_GADGET
. Returns true
if the member could be invoked. Returns false
if there is no such member or the parameters did not match.
See the variadic invokeMethod() function for more information. This function should behave the same way as that one, with the following limitations:
The number of parameters is limited to 10.
Parameter names may need to be an exact string match.
Meta types are not automatically registered.
Warning
In addition to the limitations of the variadic invoke()
overload, the arguments must have the same type as the ones expected by the method, else, the behavior is undefined.
See also
Q_ARG()
Q_RETURN_ARG()
qRegisterMetaType()
invokeMethod()
- PySide6.QtCore.QMetaMethod.isConst()#
- Return type:
bool
Returns whether the method is const qualified.
Note
This method might erroneously return false
for a const method if it belongs to a library compiled against an older version of Qt.
- PySide6.QtCore.QMetaMethod.isValid()#
- Return type:
bool
Returns true
if this method is valid (can be introspected and invoked), otherwise returns false
.
- PySide6.QtCore.QMetaMethod.methodIndex()#
- Return type:
int
Returns this method’s index.
- PySide6.QtCore.QMetaMethod.methodSignature()#
- Return type:
Returns the signature of this method (e.g., setValue(double)
).
See also
- PySide6.QtCore.QMetaMethod.methodType()#
- Return type:
Returns the type of this method (signal, slot, or method).
See also
- PySide6.QtCore.QMetaMethod.name()#
- Return type:
Returns the name of this method.
See also
- PySide6.QtCore.QMetaMethod.__ne__(m2)#
- Parameters:
- Return type:
bool
This is an overloaded function.
Returns true
if method m1
is not equal to method m2
, otherwise returns false
.
- PySide6.QtCore.QMetaMethod.__eq__(m2)#
- Parameters:
- Return type:
bool
This is an overloaded function.
Returns true
if method m1
is equal to method m2
, otherwise returns false
.
- PySide6.QtCore.QMetaMethod.parameterCount()#
- Return type:
int
Returns the number of parameters of this method.
See also
- PySide6.QtCore.QMetaMethod.parameterMetaType(index)#
- Parameters:
index – int
- Return type:
Returns the metatype of the parameter at the given index
.
If the index
is smaller than zero or larger than parameterCount()
, an invalid QMetaType
is returned.
See also
- PySide6.QtCore.QMetaMethod.parameterNames()#
- Return type:
.list of QByteArray
Returns a list of parameter names.
See also
- PySide6.QtCore.QMetaMethod.parameterType(index)#
- Parameters:
index – int
- Return type:
int
Returns the type of the parameter at the given index
.
The return value is one of the types that are registered with QMetaType
, or UnknownType
if the type is not registered.
- PySide6.QtCore.QMetaMethod.parameterTypeName(index)#
- Parameters:
index – int
- Return type:
Returns the name of the type at position index
If there is no parameter at index
, returns an empty QByteArray
See also
- PySide6.QtCore.QMetaMethod.parameterTypes()#
- Return type:
.list of QByteArray
Returns a list of parameter types.
See also
- PySide6.QtCore.QMetaMethod.relativeMethodIndex()#
- Return type:
int
Returns this method’s local index inside.
- PySide6.QtCore.QMetaMethod.returnMetaType()#
- Return type:
Returns the return type of this method.
See also
- PySide6.QtCore.QMetaMethod.returnType()#
- Return type:
int
Returns the return type of this method.
The return value is one of the types that are registered with QMetaType
, or UnknownType
if the type is not registered.
- PySide6.QtCore.QMetaMethod.revision()#
- Return type:
int
Returns the method revision if one was specified by Q_REVISION
, otherwise returns 0.
- PySide6.QtCore.QMetaMethod.tag()#
- Return type:
str
Warning
This section contains snippets that were automatically translated from C++ to Python and may contain errors.
Returns the tag associated with this method.
Tags are special macros recognized by moc
that make it possible to add extra information about a method.
Tag information can be added in the following way in the function declaration:
# In the class MainWindow declaration #ifndef Q_MOC_RUN # define the tag text as empty, so the compiler doesn't see it # define MY_CUSTOM_TAG #endif ... # private slots MY_CUSTOM_TAG void testFunc()
and the information can be accessed by using:
win = MainWindow() win.show() functionIndex = win.metaObject().indexOfSlot("testFunc()") mm = win.metaObject().method(functionIndex) print(mm.tag()) # prints MY_CUSTOM_TAG
For the moment, moc
will extract and record all tags, but it will not handle any of them specially. You can use the tags to annotate your methods differently, and treat them according to the specific needs of your application.
Note
moc
expands preprocessor macros, so it is necessary to surround the definition with #ifndef
Q_MOC_RUN
, as shown in the example above.
- PySide6.QtCore.QMetaMethod.typeName()#
- Return type:
str
Returns the return type name of this method.
See also