signal and slot in pyside

Signals and Slots in PySide

This page describes the use of signals and slots in PySide. The emphasis is on illustrating the use of so-called new-style signals and slots, although the traditional syntax is also given as a reference.

PyQt’s new-style signals and slots were introduced in PyQt v4.5. The main goal of this new-style is to provide a more Pythonic syntax to Python programmers. PySide uses PSEP 100 [pyside.org] as its implementation guideline.

Traditional syntax: SIGNAL and SLOT

QtCore.SIGNAL and QtCore.SLOT macros allow Python to interface with Qt signal and slot delivery mechanisms. This is the old way of using signals and slots.

The example below uses the well known clicked signal from a QPushButton. The connect method has a non python-friendly syntax. It is necessary to inform the object, its signal (via macro) and a slot to be connected to.

 

  1. ...
  2.  
  3. def  someFunc ( ) :
  4.     print   "someFunc has been called!"
  5.  
  6. ...
  7.  
  8. button   =   QtGui. QPushButton ( "Call someFunc" )
  9. QtCore. QObject. connect (button ,   QtCore. SIGNAL ( 'clicked()' ) ,  someFunc )
  10.  
  11. ...

 

New syntax: Signal() and Slot()

The new-style uses a different syntax to create and to connect signals and slots. The previous example could be rewritten as:

 

  1. ...
  2.  
  3. def  someFunc ( ) :
  4.     print   "someFunc has been called!"
  5.  
  6. button   =   QtGui. QPushButton ( "Call someFunc" )
  7. button. clicked. connect (someFunc )
  8.  
  9. ...

 

Using QtCore.Signal()

Signals can be defined using the QtCore.Signal() class. Python types and C types can be passed as parameters to it. If you need to overload it just pass the types as tuples or lists.

In addition to that, it can receive also a named argument name that defines the signal name. If nothing is passed as name then the new signal will have the same name as the variable that it is being assigned to.

The Examples section below has a collection of examples on the use of QtCore.Signal().

Note: Signals should be defined only within classes inheriting from QObject. This way the signal information is added to the class QMetaObject structure.

Using QtCore.Slot()

Slots are assigned and overloaded using the decorator QtCore.Slot(). Again, to define a signature just pass the types like the QtCore.Signal() class. Unlike the Signal() class, to overload a function, you don’t pass every variation as tuple or list. Instead, you have to define a new decorator for every different signature. The examples section below will make it clearer.

Another difference is about its keywords. Slot() accepts a name and a result. The result keyword defines the type that will be returned and can be a C or Python type. name behaves the same way as in Signal(). If nothing is passed as namethen the new slot will have the same name as the function that is being decorated.

Examples

The examples below illustrate how to define and connect signals and slots in PySide. Both basic connections and more complex examples are given.

  • Hello World example: the basic example, showing how to connect a signal to a slot without any parameters.

 

  1. #!/usr/bin/env python
  2.  
  3. import sys
  4. from PySide import   QtCore ,   QtGui
  5.  
  6. # define a function that will be used as a slot
  7. def sayHello ( ) :
  8.     print   'Hello world!'
  9.  
  10. app   =   QtGui. QApplication (sys. argv )
  11.  
  12. button   =   QtGui. QPushButton ( 'Say hello!' )
  13.  
  14. # connect the clicked signal to the sayHello slot
  15. button. clicked. connect (sayHello )
  16. button. show ( )
  17.  
  18. sys. exit (app. exec_ ( ) )

 

  • Next, some arguments are added. This is a modified Hello World version. Some arguments are added to the slot and a new signal is created.

 

  1. #!/usr/bin/env python
  2.  
  3. import sys
  4. from PySide import   QtCore
  5.  
  6. # define a new slot that receives a string and has
  7. # 'saySomeWords' as its name
  8. @ QtCore. Slot (str )
  9. def saySomeWords (words ) :
  10.     print words
  11.  
  12. class  Communicate ( QtCore. QObject ) :
  13.       # create a new signal on the fly and name it 'speak'
  14.     speak   =   QtCore. Signal (str )
  15.  
  16. someone   =  Communicate ( )
  17. # connect signal and slot
  18. someone. speak. connect (saySomeWords )
  19. # emit 'speak' signal
  20. someone. speak. emit ( "Hello everybody!" )

 

  • Add some overloads. A small modification of the previous example, now with overloaded decorators.

 

  1. #!/usr/bin/env python
  2.  
  3. import sys
  4. from PySide import   QtCore
  5.  
  6. # define a new slot that receives a C 'int' or a 'str'
  7. # and has 'saySomething' as its name
  8. @ QtCore. Slot ( int )
  9. @ QtCore. Slot (str )
  10. def saySomething (stuff ) :
  11.     print stuff
  12.  
  13. class  Communicate ( QtCore. QObject ) :
  14.       # create two new signals on the fly: one will handle
  15.       # int type, the other will handle strings
  16.     speakNumber   =   QtCore. Signal ( int )
  17.     speakWord   =   QtCore. Signal (str )
  18.  
  19. someone   =  Communicate ( )
  20. # connect signal and slot properly
  21. someone. speakNumber. connect (saySomething )
  22. someone. speakWord. connect (saySomething )
  23. # emit each 'speak' signal
  24. someone. speakNumber. emit ( 10 )
  25. someone. speakWord. emit ( "Hello everybody!" )

 

  • An example with slot overloads and more complicated signal connections and emissions:

 

  1. #!/usr/bin/env python
  2.  
  3. import sys
  4. from PySide import   QtCore
  5.  
  6. # define a new slot that receives an C 'int' or a 'str'
  7. # and has 'saySomething' as its name
  8. @ QtCore. Slot ( int )
  9. @ QtCore. Slot (str )
  10. def saySomething (stuff ) :
  11.     print stuff
  12.  
  13. class  Communicate ( QtCore. QObject ) :
  14.       # create two new signals on the fly: one will handle
  15.       # int type, the other will handle strings
  16.     speak   =   QtCore. Signal ( ( int , ) ,   (str , ) )
  17.  
  18. someone   =  Communicate ( )
  19. # connect signal and slot. As 'int' is the default
  20. # we have to specify the str when connecting the
  21. # second signal
  22. someone. speak. connect (saySomething )
  23. someone. speak [str ]. connect (saySomething )
  24.  
  25. # emit 'speak' signal with different arguments.
  26. # we have to specify the str as int is the default
  27. someone. speak. emit ( 10 )
  28. someone. speak [str ]. emit ( "Hello everybody!" )

 

  • An example of an object method emitting a signal:

 

  1. #!/usr/bin/env python
  2.  
  3. import sys
  4. from PySide import   QtCore
  5.  
  6. class  Communicate ( QtCore. QObject ) :      # !!! Must inherit QObject for signals
  7.    
  8.    speak   =   QtCore. Signal ( )
  9.  
  10.    def __init__ (self ) :
  11.         # !!! Must init QObject else runtime error: PySide.QtCore.Signal object has no attribute ‘emit’
  12.        super (Communicate ,  self ).__init__ ( )
  13.  
  14.    def speakingMethod ( ) :
  15.        self. speak. emit ( )
  16.  
  17. someone   =  Communicate ( )
  18. someone. speakingMethod ( )

 

  • Signals are runtime objects owned by instances, they are not class attributes:

 

  1. Communicate. speak. connect (saySomething )      # Erroneous: refers to class Communicate, not an instance of the class
  2.  
  3. # raises exception: AttributeError: 'PySide.QtCore.Signal' object has no attribute 'connect'

 

PyQt Compatibility

PyQt uses a different naming convention to its new signal/slot functions. In order to convert any PyQt script that uses this new-style to run with PySide, just use either of the proposed modifications below:

 

  1. from PySide. QtCore  import Signal as pyqtSignal
  2. from PySide. QtCore  import Slot as pyqtSlot

 

or

 

  1. QtCore. pyqtSignal   =   QtCore. Signal
  2. QtCore. pyqtSlot   =   QtCore. Slot

 

This way any call to pyqtSignal or pyqtSlot will be translated to a Signal or Slot call.

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转载于:https://www.cnblogs.com/threef/p/3450230.html

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