In the first part of this series, we created a simple project and learned how
to implement IoC pattern using Unity. In this one, I’ll show how you can instantiate other types that implement our IProduct interface. One place where this one would want
to use this feature is
to create mock types for testing purposes. Alright, let’s dig in. I added another class – Product2.cs
to the ProductModel project. 1: public class Product2 : IProduct
2: {
3: public string Name { get; set;}
4: public Category Category { get; set; }
5: public DateTime MfgDate { get;set; }
6:
7: public Product2()
8: {
9: Name = "Canon Digital Rebel XTi";
10: Category = new Category {Name = "Electronics", SubCategoryName = "Digital Cameras"};
11: MfgDate = DateTime.Now;
12: }
13:
14: public string WriteProductDetails()
15: {
16: return string.Format("Name: {0}<br/>Category: {1}<br/>Mfg Date: {2}",
17: Name, Category, MfgDate.ToShortDateString());
18: }
19: }
Highlights of this class are that it implements IProduct interface and it has some different properties than the Product class. The Category class looks like below:
1: public class Category
2: {
3: public string Name { get; set; }
4: public string SubCategoryName { get; set; }
5:
6: public override string ToString()
7: {
8: return string.Format("{0} - {1}", Name, SubCategoryName);
9: }
10: }
We’ll go
to our web.config file
to add the configuration information about this new class – Product2 that we created. Let’s first add a typeAlias element.
1: <typeAlias alias="Product2" type="ProductModel.Product2, ProductModel"/>
That’s all that is needed for us
to get an instance of Product2 in our application. I have a new button added
to the .aspx page and the click event of this button is where all the magic happens:
1: private IUnityContainer unityContainer;
2: protected void Page_Load(object sender, EventArgs e)
3: {
4: unityContainer = Application["UnityContainer"] as IUnityContainer;
5:
6: if (unityContainer == null)
7: {
8: productDetailsLabel.Text = "ERROR: Unity Container not populated in Global.asax.<p />";
9: }
10: else
11: {
12: if (!IsPostBack)
13: {
14: IProduct productInstance = unityContainer.Resolve<IProduct>();
15: productDetailsLabel.Text = productInstance.WriteProductDetails();
16: }
17: }
18: }
19:
20: protected void Product2Button_Click(object sender, EventArgs e)
21: {
22: unityContainer.RegisterType<IProduct, Product2>();
23: IProduct product2Instance = unityContainer.Resolve<IProduct>();
24: productDetailsLabel.Text = product2Instance.WriteProductDetails();
25: }
The unityContainer instance is set in the Page_Load event. Line 22 in the click event of the Product2Button registers a type mapping in the container. In English, this means that when unityContainer tries
to resolve for IProduct, it gets an instance of Product2.
Once this code runs, following output is rendered:
There’s another way of doing this. You can resolve an instance of the requested type with a name from the container. We’ll have
to update the container element of our web.config file
to include the following:
1: <container name="unityContainer">
2: <types>
3: <type type="IProduct" mapTo="Product"/>
4: <!-- Named mapping for IProduct
to Product -->
5: <type type="IProduct" mapTo="Product" name="LegacyProduct" />
6: <!-- Named mapping for IProduct
to Product2 -->
7: <type type="IProduct" mapTo="Product2" name="NewProduct" />
8: </types>
9: </container>
I’ve added a Dropdownlist and a button
to the design page:
1: <asp:DropDownList ID="ModelTypesList" runat="server">
2: <asp:ListItem Text="Legacy Product" Value="LegacyProduct" />
3: <asp:ListItem Text="New Product" Value="NewProduct" />
4: </asp:DropDownList>
5: <br />
6: <asp:Button ID="SelectedModelButton" Text="Get Selected Instance" runat="server"
7: onclick="SelectedModelButton_Click" />
1: protected void SelectedModelButton_Click(object sender, EventArgs e)
2: {
3: // get the selected value: LegacyProduct or NewProduct
4: string modelType = ModelTypesList.SelectedValue;
5: // pass the modelType
to the Resolve method
6: IProduct customModel = unityContainer.Resolve<IProduct>(modelType);
7: productDetailsLabel.Text = customModel.WriteProductDetails();
8: }
Pretty straight forward right? The only thing
to note here is that the values in the dropdownlist item need
to match the name attribute of the type. Depending on what you select, you’ll get an instance of either the Product class or the Product2 class and the corresponding WriteProductDetails() method is called.
Now you see, how either of these methods can be used
to create mock objects your the test project. See the code here.
I’ll continue
to share more of Unity in the next blog.
