Introduction
One more addition to the dotnet 4.0 framework is the Expando object. It is defined in the System.Core assembly and belongs to System.Dynamic namespace.
Intellisense speaks of Expando object as
Expando Object – An Inside View
A detailed look inside the Expando Object reveals the following
The Expando Class cannot be inherited as it is Sealed. It implements six different interfaces. Out of which the below two needs special attention
IDynamicMetaObjectProvider
We know that any object that can have its operations bound at runtime must implement the IDynamicMetaObjectProvider. So is the Expando object.
Hence dynamic dyn = new ExpandoObject(); is a perfectly valid statement.
INotifyPropertyChanged
Whenever a new member is added or modified, the class raises the PropertyChange Event.
Using the code
Example 1: Adding members
Consider the below program
dynamic dyn = new ExpandoObject();
dyn.Member1 = "Some Member";
dyn.Member2 = 2;
Console.WriteLine(dyn.Member1);
Console.WriteLine(dyn.Member2);
Simply we added two members to our ExpandoObject. Really simple.
Example 2: Reading and Writing from Expando Collection
This code piece will show how we can assign values to an Expando Collection
List expandoList = new List();
for (int i = 2; i --> 0;)
{
dynamic dynObject = new ExpandoObject();
dynObject.Prop1 = i;
dynObject.Prop2 = "String Property" + i;
dynObject.Prop3 = AddDictionaryObject (i);
expandoList.Add(dynObject);
}
private static Dictionary AddDictionaryObject(int i)
{
Dictionary dict = new Dictionary();
dict.Add(i, "Value" + i.ToString());
return dict;
}
First we are instantiating a new ExpandoObject collection.
List expandoList = new List();
Then by using the new “Goes To” operator, we have populated two items into the Collection.
The line dynamic dynObject = new ExpandoObject(); ensures that the ExpandoObject is assigned to the dynamic object and henceforth we can add properties to it dynamically which the DLR will check at runtime. We also have a property(here Prop3) which is of type Dictionary < int, string >
The code is pretty straight forward.
The next part shows how to READ values from the Expando Collection just created
foreach (dynamic d in expandoList)
{
Console.WriteLine("Reading Collection {0} Values", d.Prop1);
Console.WriteLine("Prop1 value is: {0}",d.Prop1);
Console.WriteLine("Prop2 value is: {0}", d.Prop2);
foreach (dynamic dic in d.Prop3)
{
Console.WriteLine("The key is {0} and it's value is {1}",dic.Key,dic.Value);
}
Console.WriteLine(Environment.NewLine);
Console.WriteLine("-----------------------------------------------------------");
}
As can be understandable that we are looping through the Expando Collection and since every item is of type dynamic, we can simply call the Property name. However, whether the property is valid or not will be checked at runtime.
Example 3: Adding Action and Func delegates
Consider the below
Case 1: Add Action Delegate for a Callback
dynamic dynObj= new ExpandoObject();
dynObj.Action = new Action(() =>
{
Console.WriteLine("Helo From Action Delegate");
});
dynObj.Action();
Nothing much so..Simply assigning the Action delegate at runtime and Invoking the same for a simple callback.
Case 2: Add Func Delegate for a Callback
dynObj.Func = new Func
((a, res, str) => Calci(a,res,str));
Console.WriteLine("The {0} operation yields {1}",
"+", dynObj.Func(12, 4, "+"));
And the Calci Function is here
private static int Calci(int num1, int num2, string op)
{
int result = 0;
switch (op)
{
case "+":
result = num1 + num2;
break;
case "-":
result = num1 - num2;
break;
case "*":
result = num1 * num2;
break;
case "/":
result = num1 / num2;
break;
}
return result;
}
This shows how we can use the Func delegate to make simple Arithmetical operations.
Example 4: Notifying Property Change events
As mentioned above , the Expando Object implements the INotifyPropertyChanged interface which is in System.ComponentModel namespace.
That means, whenever we add a new Property to the Expando Object or Change the Value of the existing Property, the PropertyChanged event handler should get trigger. Lets see how it can be done
dynamic dynObject = new ExpandoObject();
((INotifyPropertyChanged)dynObject).PropertyChanged +=
new PropertyChangedEventHandler(Program_PropertyChanged);
dynObject.Property1 = 10;
dynObject.Property1 = 20;
And the PropertyChanged Event handler is as under
static void Program_PropertyChanged
(
object sender
, PropertyChangedEventArgs e
)
{
Console.WriteLine("Property {0} with value {1}",
e.PropertyName, ((dynamic)sender).Property1);
}
Here we have simply define a property Property1 and set the initial value to 10. Next we change the property value to 20.The result is
Example 5: Handling events
We can define events to our ExpandoObject.
The steps to follow is listed as under
#region Handling Events
dynamic dynObjectEvent = new ExpandoObject();
dynObjectEvent.Value = 10;
dynObjectEvent.customEventMember = null;
dynObjectEvent.customEventMember += new EventHandler(CustomEventHandler);
EventHandler eh = dynObjectEvent.customEventMember;
if (eh != null) eh.Invoke(dynObjectEvent, EventArgs.Empty);
#endregion
The event handler is defined as under/p>
static void CustomEventHandler(object sender, EventArgs e)
{
Console.WriteLine("Custom event handler raised by {0} and has send a value {1}",
((dynamic)sender).customEventMember
, ((dynamic)sender).Value);
}
As can be seen that defining events is a three step prosess.
Step 1: Add a member and set it to null first
dynObjectEvent.customEventMember = null;
Step 2:Now subscribe the event
dynObjectEvent.customEventMember
+= new EventHandler(CustomEventHandler);
Step 3: Raise the Event
EventHandler eh = dynObjectEvent.customEventMember;
if (eh != null) eh.Invoke(dynObjectEvent, EventArgs.Empty);
The output being
Conclusion:
In this short tutorial we have seen some of the benifits of Expando Object.
Comments on the topic are highly appreciated for the improvement of the topic.
Thanks for reading the article.
