Walkthrough: Declaring and Raising Events
This walkthrough demonstrates how to declare and raise events for a class named Widget
. After you complete the steps, you might want to read the companion topic, Walkthrough: Handling Events, which shows how to use events from Widget
objects to provide status information in an application.
The Widget Class
Assume for the moment that you have a Widget
class. Your Widget
class has a method that can take a long time to execute, and you want your application to be able to put up some kind of completion indicator.
Of course, you could make the Widget
object show a percent-complete dialog box, but then you would be stuck with that dialog box in every project in which you used the Widget
class. A good principle of object design is to let the application that uses an object handle the user interface—unless the whole purpose of the object is to manage a form or dialog box.
The purpose of Widget
is to perform other tasks, so it is better to add a PercentDone
event and let the procedure that calls Widget
's methods handle that event and display status updates. The PercentDone
event can also provide a mechanism for canceling the task.
To build the code example for this topic
Open a new Visual Basic Windows Application project and create a form named
Form1
.Add two buttons and a label to
Form1
.Name the objects as shown in the following table.
Object Property Setting Button1
Text
Start Task
Button2
Text
Cancel
Label
(Name)
,Text
lblPercentDone, 0
On the Project menu, choose Add Class to add a class named
Widget.vb
to the project.
To declare an event for the Widget class
Use the Event keyword to declare an event in the
Widget
class. Note that an event can have ByVal and ByRef arguments, asWidget
'sPercentDone
event demonstrates:Public Event PercentDone(ByVal Percent As Single, _ ByRef Cancel As Boolean)
When the calling object receives a PercentDone
event, the Percent
argument contains the percentage of the task that is complete. The Cancel
argument can be set to True to cancel the method that raised the event.
Note
You can declare event arguments just as you do arguments of procedures, with the following exceptions: Events cannot have Optional or ParamArray arguments, and events do not have return values.
The PercentDone
event is raised by the LongTask
method of the Widget
class. LongTask
takes two arguments: the length of time the method pretends to be doing work, and the minimum time interval before LongTask
pauses to raise the PercentDone
event.
To raise the PercentDone event
To simplify access to the Timer property used by this class, add an Imports statement to the top of the declarations section of your class module, above the
Class Widget
statement.Imports Microsoft.VisualBasic.DateAndTime
Add the following code to the
Widget
class:Public Sub LongTask(ByVal Duration As Single, _ ByVal MinimumInterval As Single) Dim Threshold As Single Dim Start As Single Dim blnCancel As Boolean ' The Timer property of the DateAndTime object returns the seconds ' and milliseconds that have passed since midnight. Start = CSng(Timer) Threshold = MinimumInterval Do While CSng(Timer) < (Start + Duration) ' In a real application, some unit of work would ' be done here each time through the loop. If CSng(Timer) > (Start + Threshold) Then RaiseEvent PercentDone( _ Threshold / Duration, blnCancel) ' Check to see if the operation was canceled. If blnCancel Then Exit Sub Threshold = Threshold + MinimumInterval End If Loop End Sub
When your application calls the LongTask
method, the Widget
class raises the PercentDone
event every MinimumInterval
seconds. When the event returns, LongTask
checks to see if the Cancel
argument was set to True.
A few disclaimers are necessary here. For simplicity, the LongTask
procedure assumes you know in advance how long the task will take. This is almost never the case. Dividing tasks into chunks of even size can be difficult, and often what matters most to users is simply the amount of time that passes before they get an indication that something is happening.
You may have spotted another flaw in this sample. The Timer property returns the number of seconds that have passed since midnight; therefore, the application gets stuck if it is started just before midnight. A more careful approach to measuring time would take boundary conditions such as this into consideration, or avoid them altogether, using properties such as Now.
Now that the Widget
class can raise events, you can move to the next walkthrough. Walkthrough: Handling Events demonstrates how to use WithEvents to associate an event handler with the PercentDone
event.
See Also
Tasks
Walkthrough: Handling Events
How to: Write Event Handlers
Reference
Timer Property
WithEvents
Now Property
Event Statement
ByVal
ByRef
Imports Statement
Concepts
Events and Event Handlers
Delegates and the AddressOf Operator
AddHandler and RemoveHandler