ASP.Net application and its pages are instantiated and processed to produce dynamic output.
ASP.Net compiles the pages dynamically
The ASP.Net life cycle could be divided into two groups:
- Application Life Cycle
- Page Life Cycle
ASP.Net Application Life Cycle:
The application life cycle has the following stages:
User makes a request for accessing application resource, a page. Browser sends this request to the web server.
A unified pipeline receives the first request and the following events take place:
An object of the ApplicationManager class is created.
An object of the HostingEnvironment class is created to provide information regarding the resources.
Top level items in the application are compiled.
Response objects are created . the application objects: HttpContext, HttpRequest and HttpResponse are created and initialized.
An instance of the HttpApplication object is created and assigned to the request. The request is processed by the HttpApplication class. Different events are raised by this class for processing the request.
ASP.Net Page Life Cycle:
When a page is requested, it is loaded into the server memory, processed and sent to the browser. Then it is unloaded from the memory. At each of this steps, methods and events are available, which could be overridden according to the need of the application. In other words, you can write your own code to override the default code.
The Page class creates a hierarchical tree of all the controls on the page. All the components on the page, except the directives are part of this control tree. You can see the control tree by adding trace= “true” to the Page directive. We will cover page directives and tracing under ‘directives’ and ‘error handling’.
The page life cycle phases are:
- Instantiation of the controls on the page
- Restoration and maintenance of the state
- Execution of the event handler codes
- Page rendering
Understanding the page life cycle helps in writing codes for making some specific thing happen at any stage of the page life cycle. It also helps in writing custom controls and initializing them at run time, populate their properties with view-state data and run control behavior code.
Following are the different stages of an ASP.Net page:
Page Request – when ASP.Net gets a page request, it decides whether to parse and compile the page or there would be a cached version of the page; accordingly the response is sent
Starting of page life cycle – at this stage, the Request and Response objects are set. If the request is an old request or post back, the IsPostBack property of the page is set to true. The UICulture property of the page is also set.
Page initialization – at this stage, the controls on the page are assigned unique ID by setting the UniqueID property and themes are applied. For a new request postback data is loaded and the control properties are restored to the view-state values.
Page load – at this stage, control properties are set using the view state and control state values.
Validation – Validate method of the validation control is called and if it runs successfully, the IsValid property of the page is set to true.
Postback event handling – if the request is a postback (old request), the related event handler is called.
Page rendering – at this stage, view state for the page and all controls are saved. The page calls the Render method for each control and the output of rendering is written to the OutputStream class of the Page’s Response property.
Unload – the rendered page is sent to the client and page properties, such as Response and Request are unloaded and all cleanup done.
ASP.Net Page Life Cycle Events:
At each stage of the page life cycle, the page raises some events, which could be coded. An event handler is basically a function or subroutine, bound to the event, using declarative attributes like Onclick or handle.
Following are the page life cycle events:
PreInit – PreInit is the first event in page life cycle. It checks the IsPostBack property and determines whether the page is a postback. It sets the themes and master pages, creates dynamic controls and gets and sets profile property values. This event can be handled by overloading the OnPreInit method or creating a Page_PreInit handler.
Init – Init event initializes the control property and the control tree is built. This event can be handled by overloading the OnInit method or creating a Page_Init handler.
InitComplete – InitComplete event allows tracking of view state. All the controls turn on view-state tracking.
LoadViewState – LoadViewState event allows loading view state information into the controls.
LoadPostData – during this phase, the contents of all the input fields defined with the