Related
I have a class, EventContainer.cs, which contains an event, say:
public event EventHandler AfterSearch;
I have another class, EventRaiser.cs. How do I raise (and not handle) the above said event from this class?
The raised event will in turn call the handler of the event in the EventContainer class. Something like this (this is obviously not correct):
EventContainer obj = new EventContainer();
RaiseEvent(obj.AfterSearch);
This is not possible, Events can only be risen from inside the class. If you could do that, it would defeat the purpose of events (being able to rise status changes from inside the class). I think you are misunderstanding the function of events - an event is defined inside a class and others can subscribe to it by doing
obj.AfterSearch += handler; (where handler is a method according to the signature of AfterSearch). One is able to subscribe to the event from the outside just fine, but it can only be risen from inside the class defining it.
It is POSSIBLE, but using clever hack.
Inspired by http://netpl.blogspot.com/2010/10/is-net-type-safe.html
If you don't believe, try this code.
using System;
using System.Runtime.InteropServices;
namespace Overlapping
{
[StructLayout(LayoutKind.Explicit)]
public class OverlapEvents
{
[FieldOffset(0)]
public Foo Source;
[FieldOffset(0)]
public OtherFoo Target;
}
public class Foo
{
public event EventHandler Clicked;
public override string ToString()
{
return "Hello Foo";
}
public void Click()
{
InvokeClicked(EventArgs.Empty);
}
private void InvokeClicked(EventArgs e)
{
var handler = Clicked;
if (handler != null)
handler(this, e);
}
}
public class OtherFoo
{
public event EventHandler Clicked;
public override string ToString()
{
return "Hello OtherFoo";
}
public void Click2()
{
InvokeClicked(EventArgs.Empty);
}
private void InvokeClicked(EventArgs e)
{
var handler = Clicked;
if (handler != null)
handler(this, e);
}
public void Clean()
{
Clicked = null;
}
}
class Test
{
public static void Test3()
{
var a = new Foo();
a.Clicked += AClicked;
a.Click();
var o = new OverlapEvents { Source = a };
o.Target.Click2();
o.Target.Clean();
o.Target.Click2();
a.Click();
}
static void AClicked(object sender, EventArgs e)
{
Console.WriteLine(sender.ToString());
}
}
}
You can write a public method on the class you want the event to fire from and fire the event when it is called. You can then call this method from whatever user of your class.
Of course, this ruins encapsulation and is bad design.
It looks like you're using the Delegate pattern. In this case, the AfterSearch event should be defined on the EventRaiser class, and the EventContainer class should consume the event:
In EventRaiser.cs
public event EventHandler BeforeSearch;
public event EventHandler AfterSearch;
public void ExecuteSearch(...)
{
if (this.BeforeSearch != null)
this.BeforeSearch();
// Do search
if (this.AfterSearch != null)
this.AfterSearch();
}
In EventContainer.cs
public EventContainer(...)
{
EventRaiser er = new EventRaiser();
er.AfterSearch += this.OnAfterSearch;
}
public void OnAfterSearch()
{
// Handle AfterSearch event
}
I stumbled across this problem as well, because i was experimenting with calling PropertyChanged events from outside. So you dont have to implement everything in every class. The solution from halorty wouldn't work using interfaces.
I found a solution working using heavy reflection. It is surely slow and is breaking the principle that events should only be called from inside a class. But it is interesting to find a generic solution to this problem....
It works because every event is a list of invocation methods being called.
So we can get the invocation list and call every listener attached to that event by our own.
Here you go....
class Program
{
static void Main(string[] args)
{
var instance = new TestPropertyChanged();
instance.PropertyChanged += PropertyChanged;
instance.RaiseEvent(nameof(INotifyPropertyChanged.PropertyChanged), new PropertyChangedEventArgs("Hi There from anywhere"));
Console.ReadLine();
}
private static void PropertyChanged(object sender, PropertyChangedEventArgs e)
{
Console.WriteLine(e.PropertyName);
}
}
public static class PropertyRaiser
{
private static readonly BindingFlags staticFlags = BindingFlags.Instance | BindingFlags.NonPublic;
public static void RaiseEvent(this object instance, string eventName, EventArgs e)
{
var type = instance.GetType();
var eventField = type.GetField(eventName, staticFlags);
if (eventField == null)
throw new Exception($"Event with name {eventName} could not be found.");
var multicastDelegate = eventField.GetValue(instance) as MulticastDelegate;
if (multicastDelegate == null)
return;
var invocationList = multicastDelegate.GetInvocationList();
foreach (var invocationMethod in invocationList)
invocationMethod.DynamicInvoke(new[] {instance, e});
}
}
public class TestPropertyChanged : INotifyPropertyChanged
{
public event PropertyChangedEventHandler PropertyChanged;
}
There is good way to do this. Every event in C# has a delegate that specifies the sign of methods for that event. Define a field in your external class with type of your event delegate. get the the reference of that field in the constructor of external class and save it. In main class of your event, send the reference of event for delegate of external class. Now you can easily call the delegate in your external class.
public delegate void MyEventHandler(object Sender, EventArgs Args);
public class MyMain
{
public event MyEventHandler MyEvent;
...
new MyExternal(this.MyEvent);
...
}
public MyExternal
{
private MyEventHandler MyEvent;
public MyExternal(MyEventHandler MyEvent)
{
this.MyEvent = MyEvent;
}
...
this.MyEvent(..., ...);
...
}
Agree with Femaref -- and note this is an important difference between delegates and events (see for example this blog entry for an good discussion of this and other differences).
Depending on what you want to achieve, you might be better off with a delegate.
Not a good programming but if you want to do that any way you can do something like this
class Program
{
static void Main(string[] args)
{
Extension ext = new Extension();
ext.MyEvent += ext_MyEvent;
ext.Dosomething();
}
static void ext_MyEvent(int num)
{
Console.WriteLine(num);
}
}
public class Extension
{
public delegate void MyEventHandler(int num);
public event MyEventHandler MyEvent;
public void Dosomething()
{
int no = 0;
while(true){
if(MyEvent!=null){
MyEvent(++no);
}
}
}
}
I had a similar confusion and honestly find the answers here to be confusing. Although a couple hinted at solutions that I would later find would work.
My solution was to hit the books and become more familiar with delegates and event handlers.
Although I've used both for many years, I was never intimately familiar with them.
http://www.codeproject.com/Articles/20550/C-Event-Implementation-Fundamentals-Best-Practices
gives the best explanation of both delegates and event handlers that I've ever read and clearly explains that a class can be a publisher of events and have other classes consume them.
This article: http://www.codeproject.com/Articles/12285/Implementing-an-event-which-supports-only-a-single discusses how to single-cast events to only one handler since delegates are multicast by definition . A delegate inherits system.MulticastDelegate most including the system delegates are Multicast.
I found that multicast meant that any event handler with the same signature would receive the raised event. Multicast behavior has caused me some sleepless nights as I stepped through code and saw my event seemingly erroneously being sent to handlers that I had no intention of getting this event. Both articles explains this behavior.
The second article shows you one way, and the first article shows you another, by making the delegate and the signature tightly typed.
I personally believe strong typing prevents stupid bugs that can be a pain to find. So I'd vote for the first article, even though I got the second article code working. I was just curious. :-)
I also got curious if I could get #2 articles code to behave like how I interpreted the original question above. Regardless of your chosen approach or if I'm also misinterpreting the original question, my real message is that I still think you would benefit from reading the first article as I did, especially if the questions or answers on this page leave you confused. If you are having multicast nightmares and need a quick solution then article 2 may help you.
I started playing with the second article's eventRaiser class. I made a simple windows form project.
I added the second articles class EventRaiser.cs to my project.
In the Main form's code, I defined a reference to that EventRaiser class at the top as
private EventRaiser eventRaiser = new EventRaiser();
I added a method in the main form code that I wanted to be called when the event was fired
protected void MainResponse( object sender, EventArgs eArgs )
{
MessageBox.Show("got to MainResponse");
}
then in the main form's constructor I added the event assignment:
eventRaiser.OnRaiseEvent += new EventHandler(MainResponse);`
I then created a class that would be instantiated by my main form called "SimpleClass" for lack of creative ingenuity at the moment.
Then I added a button and in the button's click event
I instantiated the SimpleClass code I wanted to raise an event from:
private void button1_Click( object sender, EventArgs e )
{
SimpleClass sc = new SimpleClass(eventRaiser);
}
Note the instance of "eventRaiser" that I passed to SimpleClass.cs. That was defined and instantiated earlier in the Main form code.
In the SimpleClass:
using System.Windows.Forms;
using SinglecastEvent; // see SingleCastEvent Project for info or http://www.codeproject.com/Articles/12285/Implementing-an-event-which-supports-only-a-single
namespace GenericTest
{
public class SimpleClass
{
private EventRaiser eventRaiser = new EventRaiser();
public SimpleClass( EventRaiser ev )
{
eventRaiser = ev;
simpleMethod();
}
private void simpleMethod()
{
MessageBox.Show("in FileWatcher.simple() about to raise the event");
eventRaiser.RaiseEvent();
}
}
}
The only point to the private method I called SimpleMethod was to verify that a privately scoped method could still raise the event, not that I doubted it, but I like to be positive.
I ran the project and this resulted in raising the event from the "simpleMethod" of the "SimpleClass" up to the main form and going to the expected correct method called MainResponse proving that one class can indeed raise an event that is consumed by a different class.
Yes the event has to be raised from within the class that needs it's change broadcast to other classes that care. Receiving classes can be one class or many many classes depending on how strongly typed you defined them or by making them single cast as in 2nd article.
Hope this helps and not muddy the water. Personally I've got a lot of delegates and events to clean up! Multicast demons begone!
The raising class has to get a fresh copy of the EventHandler.
One possible solution below.
using System;
namespace ConsoleApplication1
{
class Program
{
class HasEvent
{
public event EventHandler OnEnvent;
EventInvoker myInvoker;
public HasEvent()
{
myInvoker = new EventInvoker(this, () => OnEnvent);
}
public void MyInvokerRaising() {
myInvoker.Raise();
}
}
class EventInvoker
{
private Func<EventHandler> GetEventHandler;
private object sender;
public EventInvoker(object sender, Func<EventHandler> GetEventHandler)
{
this.sender = sender;
this.GetEventHandler = GetEventHandler;
}
public void Raise()
{
if(null != GetEventHandler())
{
GetEventHandler()(sender, new EventArgs());
}
}
}
static void Main(string[] args)
{
HasEvent h = new HasEvent();
h.OnEnvent += H_OnEnvent;
h.MyInvokerRaising();
}
private static void H_OnEnvent(object sender, EventArgs e)
{
Console.WriteLine("FIRED");
}
}
}
Use public EventHandler AfterSearch;
not
public event EventHandler AfterSearch;
Use a Delegate (an Action or Func) instead of an event. An event is essentially a delegate that can only be triggered from within the class.
I took a slightly different approach in solving this problem. My solution consisted of a winform front end, a main Class Library (DLL) and within that dll, a secondary working class:
WinForm
|------> PickGen Library
|---------> Allocations class
What I decided to do is to create events in the main dll (PickGen) that the Allocations class could call, then those event methods would called the events within the UI.
So, allocations raises an event in PickGen which takes the parameter values and raises the event in the form. From a code standpoint, this is in the lowest class:
public delegate void AllocationService_RaiseAllocLog(string orderNumber, string message, bool logToDatabase);
public delegate void AllocationService_RaiseAllocErrorLog(string orderNumber, string message, bool logToDatabase);
public class AllocationService { ...
public event AllocationService_RaiseAllocLog RaiseAllocLog;
public event AllocationService_RaiseAllocErrorLog RaiseAllocErrorLog;
then later in the subclass code:
RaiseAllocErrorLog(SOHNUM_0, ShipmentGenerated + ": Allocated line QTY was: " + allocatedline.QTY_0 + ", Delivered was: " + QTY_0 + ". Problem batch.", false);
In the main DLL Class library I have these two event methods:
private void PickGenLibrary_RaiseAllocLog(string orderNumber, string message, bool updateDB)
{
RaiseLog(orderNumber, message, false);
}
private void PickGenLibrary_RaiseAllocErrorLog(string orderNumber, string message, bool updateDB)
{
RaiseErrorLog(orderNumber, message, false);
}
and I make the connection here when I create the allocation object:
AllocationService allsvc = new AllocationService(PickResult);
allsvc.RaiseAllocLog += new AllocationService_RaiseAllocLog(PickGenLibrary_RaiseAllocLog);
allsvc.RaiseAllocErrorLog += new AllocationService_RaiseAllocErrorLog(PickGenLibrary_RaiseAllocErrorLog);
and I also then have delegates that are set up to tie the main class with the winform code:
public delegate void JPPAPickGenLibrary_RaiseLog(string orderNumber, string message, bool logToDatabase);
public delegate void JPPAPickGenLibrary_RaiseErrorLog(string orderNumber, string message, bool logToDatabase);
It may not be the most elegant way to do it, but in the end, it does work and without being too obscure.
A nested class with an instance of the outer class provided in the constructor can access even private members of the outer class. As explained more here: stackoverflow question on inner classes.
This includes the ability to raise events in the outer class. This EventRaisers class could be internal, or otherwise controlled somehow, because it could technically otherwise be created by any script with a reference to the outer class instance.
Very simple example. i like to do it this way using EventHandler.
class Program
{
static void Main(string[] args)
{
MyExtension ext = new MyExtension();
ext.MyEvent += ext_MyEvent;
ext.Dosomething();
Console.ReadLine();
}
static void ext_MyEvent(object sender, int num)
{
Console.WriteLine("Event fired.... "+num);
}
}
public class MyExtension
{
public event EventHandler<int> MyEvent;
public void Dosomething()
{
int no = 1;
if (MyEvent != null)
MyEvent(this, ++no);
}
}
}
If I have something like:
static class Program
{
public static delegate void TestHandler();
public static event TestHandler TestEvent;
public static event TestHandler TestEvent1;
public static event TestHandler TestEvent2;
static void Main(string[] args)
{
TestEvent += DoSomething1;
TestEvent1 += DoSomething2;
TestEvent2 += DoSomething3;
Trigger();
Console.ReadLine();
}
public static void Trigger()
{
TestEvent();
TestEvent1();
TestEvent2();
}
private static void DoSomething3()
{
Console.WriteLine("Something 3 was done");
}
private static void DoSomething2()
{
Console.WriteLine("Something 2 was done");
}
private static void DoSomething1()
{
Console.WriteLine("Something 1 was done");
}
Does each event made form the same type have it's own multicast delegate? How are the invocation lists separated for each event from the same delegate type?
Delegates are actually classes. So in your case, there is one type created for TestHandler delegate.And there are three different instances of that class.
You can easily see this in generated IL code:
As you can see there is a TestHandler type and there are three fields of that type.So they share the same type but they are completely separate...
Yes, every event has its own multicast delegate backing field. That the event type (and therefore field type) is the same, does not change that.
The code:
public delegate void TestHandler();
static class Program
{
public static event TestHandler TestEvent;
public static event TestHandler TestEvent1;
public static event TestHandler TestEvent2;
}
more or less means:
public delegate void TestHandler();
static class Program
{
// backing fields with the same names:
private static TestHandler TestEvent;
private static TestHandler TestEvent1;
private static TestHandler TestEvent2;
// each event is really a pair of two "methods" (accessors)
public static event TestHandler TestEvent
{
add
{
// smart code to access the private field in a safe way,
// combining parameter 'value' into that
}
remove
{
// smart code to access the private field in a safe way,
// taking out parameter 'value' from that
}
}
public static event TestHandler TestEvent1
{
add
{
// smart code to access the private field in a safe way,
// combining parameter 'value' into that
}
remove
{
// smart code to access the private field in a safe way,
// taking out parameter 'value' from that
}
}
public static event TestHandler TestEvent2
{
add
{
// smart code to access the private field in a safe way,
// combining parameter 'value' into that
}
remove
{
// smart code to access the private field in a safe way,
// taking out parameter 'value' from that
}
}
}
I have a class, EventContainer.cs, which contains an event, say:
public event EventHandler AfterSearch;
I have another class, EventRaiser.cs. How do I raise (and not handle) the above said event from this class?
The raised event will in turn call the handler of the event in the EventContainer class. Something like this (this is obviously not correct):
EventContainer obj = new EventContainer();
RaiseEvent(obj.AfterSearch);
This is not possible, Events can only be risen from inside the class. If you could do that, it would defeat the purpose of events (being able to rise status changes from inside the class). I think you are misunderstanding the function of events - an event is defined inside a class and others can subscribe to it by doing
obj.AfterSearch += handler; (where handler is a method according to the signature of AfterSearch). One is able to subscribe to the event from the outside just fine, but it can only be risen from inside the class defining it.
It is POSSIBLE, but using clever hack.
Inspired by http://netpl.blogspot.com/2010/10/is-net-type-safe.html
If you don't believe, try this code.
using System;
using System.Runtime.InteropServices;
namespace Overlapping
{
[StructLayout(LayoutKind.Explicit)]
public class OverlapEvents
{
[FieldOffset(0)]
public Foo Source;
[FieldOffset(0)]
public OtherFoo Target;
}
public class Foo
{
public event EventHandler Clicked;
public override string ToString()
{
return "Hello Foo";
}
public void Click()
{
InvokeClicked(EventArgs.Empty);
}
private void InvokeClicked(EventArgs e)
{
var handler = Clicked;
if (handler != null)
handler(this, e);
}
}
public class OtherFoo
{
public event EventHandler Clicked;
public override string ToString()
{
return "Hello OtherFoo";
}
public void Click2()
{
InvokeClicked(EventArgs.Empty);
}
private void InvokeClicked(EventArgs e)
{
var handler = Clicked;
if (handler != null)
handler(this, e);
}
public void Clean()
{
Clicked = null;
}
}
class Test
{
public static void Test3()
{
var a = new Foo();
a.Clicked += AClicked;
a.Click();
var o = new OverlapEvents { Source = a };
o.Target.Click2();
o.Target.Clean();
o.Target.Click2();
a.Click();
}
static void AClicked(object sender, EventArgs e)
{
Console.WriteLine(sender.ToString());
}
}
}
You can write a public method on the class you want the event to fire from and fire the event when it is called. You can then call this method from whatever user of your class.
Of course, this ruins encapsulation and is bad design.
It looks like you're using the Delegate pattern. In this case, the AfterSearch event should be defined on the EventRaiser class, and the EventContainer class should consume the event:
In EventRaiser.cs
public event EventHandler BeforeSearch;
public event EventHandler AfterSearch;
public void ExecuteSearch(...)
{
if (this.BeforeSearch != null)
this.BeforeSearch();
// Do search
if (this.AfterSearch != null)
this.AfterSearch();
}
In EventContainer.cs
public EventContainer(...)
{
EventRaiser er = new EventRaiser();
er.AfterSearch += this.OnAfterSearch;
}
public void OnAfterSearch()
{
// Handle AfterSearch event
}
I stumbled across this problem as well, because i was experimenting with calling PropertyChanged events from outside. So you dont have to implement everything in every class. The solution from halorty wouldn't work using interfaces.
I found a solution working using heavy reflection. It is surely slow and is breaking the principle that events should only be called from inside a class. But it is interesting to find a generic solution to this problem....
It works because every event is a list of invocation methods being called.
So we can get the invocation list and call every listener attached to that event by our own.
Here you go....
class Program
{
static void Main(string[] args)
{
var instance = new TestPropertyChanged();
instance.PropertyChanged += PropertyChanged;
instance.RaiseEvent(nameof(INotifyPropertyChanged.PropertyChanged), new PropertyChangedEventArgs("Hi There from anywhere"));
Console.ReadLine();
}
private static void PropertyChanged(object sender, PropertyChangedEventArgs e)
{
Console.WriteLine(e.PropertyName);
}
}
public static class PropertyRaiser
{
private static readonly BindingFlags staticFlags = BindingFlags.Instance | BindingFlags.NonPublic;
public static void RaiseEvent(this object instance, string eventName, EventArgs e)
{
var type = instance.GetType();
var eventField = type.GetField(eventName, staticFlags);
if (eventField == null)
throw new Exception($"Event with name {eventName} could not be found.");
var multicastDelegate = eventField.GetValue(instance) as MulticastDelegate;
if (multicastDelegate == null)
return;
var invocationList = multicastDelegate.GetInvocationList();
foreach (var invocationMethod in invocationList)
invocationMethod.DynamicInvoke(new[] {instance, e});
}
}
public class TestPropertyChanged : INotifyPropertyChanged
{
public event PropertyChangedEventHandler PropertyChanged;
}
There is good way to do this. Every event in C# has a delegate that specifies the sign of methods for that event. Define a field in your external class with type of your event delegate. get the the reference of that field in the constructor of external class and save it. In main class of your event, send the reference of event for delegate of external class. Now you can easily call the delegate in your external class.
public delegate void MyEventHandler(object Sender, EventArgs Args);
public class MyMain
{
public event MyEventHandler MyEvent;
...
new MyExternal(this.MyEvent);
...
}
public MyExternal
{
private MyEventHandler MyEvent;
public MyExternal(MyEventHandler MyEvent)
{
this.MyEvent = MyEvent;
}
...
this.MyEvent(..., ...);
...
}
Agree with Femaref -- and note this is an important difference between delegates and events (see for example this blog entry for an good discussion of this and other differences).
Depending on what you want to achieve, you might be better off with a delegate.
Not a good programming but if you want to do that any way you can do something like this
class Program
{
static void Main(string[] args)
{
Extension ext = new Extension();
ext.MyEvent += ext_MyEvent;
ext.Dosomething();
}
static void ext_MyEvent(int num)
{
Console.WriteLine(num);
}
}
public class Extension
{
public delegate void MyEventHandler(int num);
public event MyEventHandler MyEvent;
public void Dosomething()
{
int no = 0;
while(true){
if(MyEvent!=null){
MyEvent(++no);
}
}
}
}
I had a similar confusion and honestly find the answers here to be confusing. Although a couple hinted at solutions that I would later find would work.
My solution was to hit the books and become more familiar with delegates and event handlers.
Although I've used both for many years, I was never intimately familiar with them.
http://www.codeproject.com/Articles/20550/C-Event-Implementation-Fundamentals-Best-Practices
gives the best explanation of both delegates and event handlers that I've ever read and clearly explains that a class can be a publisher of events and have other classes consume them.
This article: http://www.codeproject.com/Articles/12285/Implementing-an-event-which-supports-only-a-single discusses how to single-cast events to only one handler since delegates are multicast by definition . A delegate inherits system.MulticastDelegate most including the system delegates are Multicast.
I found that multicast meant that any event handler with the same signature would receive the raised event. Multicast behavior has caused me some sleepless nights as I stepped through code and saw my event seemingly erroneously being sent to handlers that I had no intention of getting this event. Both articles explains this behavior.
The second article shows you one way, and the first article shows you another, by making the delegate and the signature tightly typed.
I personally believe strong typing prevents stupid bugs that can be a pain to find. So I'd vote for the first article, even though I got the second article code working. I was just curious. :-)
I also got curious if I could get #2 articles code to behave like how I interpreted the original question above. Regardless of your chosen approach or if I'm also misinterpreting the original question, my real message is that I still think you would benefit from reading the first article as I did, especially if the questions or answers on this page leave you confused. If you are having multicast nightmares and need a quick solution then article 2 may help you.
I started playing with the second article's eventRaiser class. I made a simple windows form project.
I added the second articles class EventRaiser.cs to my project.
In the Main form's code, I defined a reference to that EventRaiser class at the top as
private EventRaiser eventRaiser = new EventRaiser();
I added a method in the main form code that I wanted to be called when the event was fired
protected void MainResponse( object sender, EventArgs eArgs )
{
MessageBox.Show("got to MainResponse");
}
then in the main form's constructor I added the event assignment:
eventRaiser.OnRaiseEvent += new EventHandler(MainResponse);`
I then created a class that would be instantiated by my main form called "SimpleClass" for lack of creative ingenuity at the moment.
Then I added a button and in the button's click event
I instantiated the SimpleClass code I wanted to raise an event from:
private void button1_Click( object sender, EventArgs e )
{
SimpleClass sc = new SimpleClass(eventRaiser);
}
Note the instance of "eventRaiser" that I passed to SimpleClass.cs. That was defined and instantiated earlier in the Main form code.
In the SimpleClass:
using System.Windows.Forms;
using SinglecastEvent; // see SingleCastEvent Project for info or http://www.codeproject.com/Articles/12285/Implementing-an-event-which-supports-only-a-single
namespace GenericTest
{
public class SimpleClass
{
private EventRaiser eventRaiser = new EventRaiser();
public SimpleClass( EventRaiser ev )
{
eventRaiser = ev;
simpleMethod();
}
private void simpleMethod()
{
MessageBox.Show("in FileWatcher.simple() about to raise the event");
eventRaiser.RaiseEvent();
}
}
}
The only point to the private method I called SimpleMethod was to verify that a privately scoped method could still raise the event, not that I doubted it, but I like to be positive.
I ran the project and this resulted in raising the event from the "simpleMethod" of the "SimpleClass" up to the main form and going to the expected correct method called MainResponse proving that one class can indeed raise an event that is consumed by a different class.
Yes the event has to be raised from within the class that needs it's change broadcast to other classes that care. Receiving classes can be one class or many many classes depending on how strongly typed you defined them or by making them single cast as in 2nd article.
Hope this helps and not muddy the water. Personally I've got a lot of delegates and events to clean up! Multicast demons begone!
The raising class has to get a fresh copy of the EventHandler.
One possible solution below.
using System;
namespace ConsoleApplication1
{
class Program
{
class HasEvent
{
public event EventHandler OnEnvent;
EventInvoker myInvoker;
public HasEvent()
{
myInvoker = new EventInvoker(this, () => OnEnvent);
}
public void MyInvokerRaising() {
myInvoker.Raise();
}
}
class EventInvoker
{
private Func<EventHandler> GetEventHandler;
private object sender;
public EventInvoker(object sender, Func<EventHandler> GetEventHandler)
{
this.sender = sender;
this.GetEventHandler = GetEventHandler;
}
public void Raise()
{
if(null != GetEventHandler())
{
GetEventHandler()(sender, new EventArgs());
}
}
}
static void Main(string[] args)
{
HasEvent h = new HasEvent();
h.OnEnvent += H_OnEnvent;
h.MyInvokerRaising();
}
private static void H_OnEnvent(object sender, EventArgs e)
{
Console.WriteLine("FIRED");
}
}
}
Use public EventHandler AfterSearch;
not
public event EventHandler AfterSearch;
Use a Delegate (an Action or Func) instead of an event. An event is essentially a delegate that can only be triggered from within the class.
I took a slightly different approach in solving this problem. My solution consisted of a winform front end, a main Class Library (DLL) and within that dll, a secondary working class:
WinForm
|------> PickGen Library
|---------> Allocations class
What I decided to do is to create events in the main dll (PickGen) that the Allocations class could call, then those event methods would called the events within the UI.
So, allocations raises an event in PickGen which takes the parameter values and raises the event in the form. From a code standpoint, this is in the lowest class:
public delegate void AllocationService_RaiseAllocLog(string orderNumber, string message, bool logToDatabase);
public delegate void AllocationService_RaiseAllocErrorLog(string orderNumber, string message, bool logToDatabase);
public class AllocationService { ...
public event AllocationService_RaiseAllocLog RaiseAllocLog;
public event AllocationService_RaiseAllocErrorLog RaiseAllocErrorLog;
then later in the subclass code:
RaiseAllocErrorLog(SOHNUM_0, ShipmentGenerated + ": Allocated line QTY was: " + allocatedline.QTY_0 + ", Delivered was: " + QTY_0 + ". Problem batch.", false);
In the main DLL Class library I have these two event methods:
private void PickGenLibrary_RaiseAllocLog(string orderNumber, string message, bool updateDB)
{
RaiseLog(orderNumber, message, false);
}
private void PickGenLibrary_RaiseAllocErrorLog(string orderNumber, string message, bool updateDB)
{
RaiseErrorLog(orderNumber, message, false);
}
and I make the connection here when I create the allocation object:
AllocationService allsvc = new AllocationService(PickResult);
allsvc.RaiseAllocLog += new AllocationService_RaiseAllocLog(PickGenLibrary_RaiseAllocLog);
allsvc.RaiseAllocErrorLog += new AllocationService_RaiseAllocErrorLog(PickGenLibrary_RaiseAllocErrorLog);
and I also then have delegates that are set up to tie the main class with the winform code:
public delegate void JPPAPickGenLibrary_RaiseLog(string orderNumber, string message, bool logToDatabase);
public delegate void JPPAPickGenLibrary_RaiseErrorLog(string orderNumber, string message, bool logToDatabase);
It may not be the most elegant way to do it, but in the end, it does work and without being too obscure.
A nested class with an instance of the outer class provided in the constructor can access even private members of the outer class. As explained more here: stackoverflow question on inner classes.
This includes the ability to raise events in the outer class. This EventRaisers class could be internal, or otherwise controlled somehow, because it could technically otherwise be created by any script with a reference to the outer class instance.
Very simple example. i like to do it this way using EventHandler.
class Program
{
static void Main(string[] args)
{
MyExtension ext = new MyExtension();
ext.MyEvent += ext_MyEvent;
ext.Dosomething();
Console.ReadLine();
}
static void ext_MyEvent(object sender, int num)
{
Console.WriteLine("Event fired.... "+num);
}
}
public class MyExtension
{
public event EventHandler<int> MyEvent;
public void Dosomething()
{
int no = 1;
if (MyEvent != null)
MyEvent(this, ++no);
}
}
}
I am trying to use a method inside class, from another class.
namespace Crystal.Utilities
{
public class Logging
{
public static void Log()
{
//dostuff
Crystal.MainForm.general_log_add_item("Hello World");
}
}
}
namespace Crystal
{
public partial class MainForm : Form
{
public void general_log_add_item(string msg)
{
listBox1.Items.Add(msg);
}
}
}
I want to be able to call Crystal.Utilities.Logging.Log() from anywhere, and that to be able to call Crystal.MainForm.general_log_add_item() . But It doesn't let me, because if I put it as public, then I can't see it, if it's static then It can't interact with my listbox.
This is a wrong approach. Your class should not call into the UI, as the UI could change. The class should not know nor care about the UI. Instead, the class could expose an event that the form could subscribe to, and update based upon the information contained within the event's arguments.
Here's a hastily thrown together example.
class Program
{
static void Main()
{
Logger.OnLogging += Logger_OnLogging;
Logger.Log();
Logger.OnLogging -= Logger_OnLogging;
}
static void Logger_OnLogging(LoggingEventArgs e)
{
Trace.WriteLine(e.Message);
}
}
public class Logger
{
public delegate void LoggingEventHandler(LoggingEventArgs e);
public static event LoggingEventHandler OnLogging;
public static void Log()
{
// do stuff
RaiseLoggingEvent("Data logged");
}
protected static void RaiseLoggingEvent(string message)
{
if (OnLogging != null)
OnLogging(new LoggingEventArgs(message));
}
}
public class LoggingEventArgs : EventArgs
{
public LoggingEventArgs(string message)
{
this.Message = message;
}
public string Message { get; private set; }
}
Instead of implementing it as a static method, try implementing as a singleton. It's a common trick to make an instance global in scope, and restrict to one instance, without making everything static (and thus unable to be used as an instance).
You have to understand that the window is not static, there is one instance of him, thats why the method cant be static,
you can use
Application.Windows to reach this instance and call the add method.
or you can register the window in his constructor on another class that will mediate the Logging and the window.
If you don't understand tell me and I'll try to be more clear
When you declare a method as "static" you're saying that it's not dependent upon a specific instance of the class it's in.
For example if you have a class named "chair" and you want to count how many chairs there are, you'll do that with a static field, and a static method to return that field's value.
The count of all chairs is not related to a specific chair.
In your case you want to add a static method to add an item to a specific instance of a Form. That's impossible and doesn't make sense.
If you want to add an item to a listBox, it must be through a public method.
So basically what I'm saying is - rethink what you're trying to do, there's a good explanation as to why you're not succeeding in doing that.
I have a static class that I would like to raise an event as part of a try catch block within a static method of that class.
For example in this method I would like to raise a custom event in the catch.
public static void saveMyMessage(String message)
{
try
{
//Do Database stuff
}
catch (Exception e)
{
//Raise custom event here
}
}
Thank you.
Important: be very careful about subscribing to a static event from instances. Static-to-static is fine, but a subscription from a static event to an instance handler is a great (read: very dangerous) way to keep that instance alive forever. GC will see the link, and will not collect the instance unless you unsubscribe (or use something like a WeakReference).
The pattern for creating static events is the same as instance events, just with static:
public static event EventHandler SomeEvent;
To make life easier (re null checking), a useful trick here is to add a trivial handler:
public static event EventHandler SomeEvent = delegate {};
Then you can simply invoke it without the null-check:
SomeEvent(null, EventArgs.Empty);
Note that because delegate instances are immutable, and de-referencing is thread-safe, there is never a race condition here, and no need to lock... who-ever is subscribed when we de-reference gets invoked.
(adjust for your own event-args etc).
This trick applies equally to instance events.
Your event would also need to be static:
public class ErrorEventArgs : EventArgs
{
private Exception error;
private string message;
public ErrorEventArgs(Exception ex, string msg)
{
error = ex;
message = msg;
}
public Exception Error
{
get { return error; }
}
public string Message
{
get { return message; }
}
}
public static class Service
{
public static EventHandler<ErrorEventArgs> OnError;
public static void SaveMyMessage(String message)
{
EventHandler<ErrorEventArgs> errorEvent = OnError;
if (errorEvent != null)
{
errorEvent(null, new ErrorEventArgs(null, message));
}
}
}
And Usage:
public class Test
{
public void OnError(object sender, ErrorEventArgs args)
{
Console.WriteLine(args.Message);
}
}
Test t = new Test();
Service.OnError += t.OnError;
Service.SaveMyMessage("Test message");
Several folks have offered up code examples, just don't fire an event using code such as:
if(null != ExampleEvent)
{
ExampleEvent(/* put parameters here, for events: sender, eventArgs */);
}
as this contains a race condition between when you check the event for null and when you actually fire the event. Instead use a simple variation:
MyEvent exampleEventCopy = ExampleEvent;
if(null != exampleEventCopy)
{
exampleEventCopy(/* put parameters here, for events: sender, eventArgs */);
}
This will copy any event subscribers into the exampleEventCopy, which you can then use as a local-only version of the public event without having to worry about any race conditions (Essentially, it is possible that another thread could pre-empt you right after you have checked the public event for null and proceed to remove all subscribers from the event, causing the subsequent firing of the event to throw an exception, by using a local-only copy, you avoid the possibility of another thread removing subscribers, since there is no way they could access the local variable).
Note: VS2008, C#
Just declare an event as you normally would within the static class, but be sure to mark the event as static:
public static event EventHandler Work;
Then just subscribe to it as you normally would.
Just to add "Delegates are immutable" So, as shown in the example above the following line obtains a copy of the delegate.
EventHandler<ErrorEventArgs> errorEvent = OnError;
The way I did this is the following:
1- define a delegate (this will enable you to have customized arguments):
public delegate void CustomeEventHandler(string str);
2- define an event based on the previously defined delegate:
public static event CustomeEventHandler ReadLine;
3- create an event handler:
static void OnLineRead(string currentLine)
{
if (ReadLine != null)
ReadLine(currentLine);
}
4- raise your event using the event handler (just call it wherever you want the event to be raised).