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Explore the power of AJAX to create dynamic web applications that fetch server data asynchronously, minimizing page refreshes and improving user experience. Learn the fundamentals of Ajax, its components, and real-life examples. Discover how Ajax impacts server load and the three-step process it follows. Get insights on how to launch HTTP requests using JavaScript and enhance web interactivity through partial page updates. Dive into constructing and configuring an XMLHttpRequest object, processing responses efficiently, and optimizing server-side interactions.
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AJAX – Asynchronous JavaScript and XML CS 236369, Spring 2010
Where Were We Before AJAX? • Static pages give the illusion of interactivity through standard form submissions. • Form submissions result in full page loads.
So, What’s The Problem? • Many actions only manipulate small portions of the page but the entire page must be reloaded. • Server responses contain the entire page content rather than just the portion being updated. • Loading entire pages typically results in several additional HTTP requests for images, style sheets, scripts, and any other content that may be on the page.
AJAX - Asynchronous JavaScript and XML • A group of interrelated web development techniques used on the client-side to create interactive web applications / rich Internet applications. • With Ajax, web applications can retrieve data from the server asynchronously in the background without interfering with the display and behavior of the existing page. • Thus, the Web page can communicate with the server without refreshing the whole page.
Real-Life Examples of AJAX Apps • Google maps • http://maps.google.com/ • Goolgle Suggest (Now integrated in Google’s homepage) • http://www.google.com/webhp?complete=1&hl=en • Yahoo Maps • http://maps.yahoo.com/ • Many more…
AJAX Components • JavaScript • DOM • XMLHttpRequest object (XHR) • XML
Ajax Fundamentals • Ajax uses a three-step process: • Request a URL by the JavaScript code – client side. • Handle the URL on the server and write to the response – server side. • After the response is complete, integrate the response into the DOM (Document Object Model) – client side. • In an Ajax request we don't refresh the entire page; instead, we update only part of the page.
The Server side • Ajax newcomers sometimes mistakenly believe that Ajax, because it provides a more responsive user interface, reduces server-side traffic. • In fact, Ajax applications typically have more server-side traffic because each Ajax request involves a trip to the server. • Because those requests are asynchronous, however, Ajax creates the perception of a more responsive UI, though it typically does not reduce the load on the server. Did we reduce the load on the server?
So, How Does It Work? • JavaScript is used to: • Create and control instances of the XMLHttpRequest (XHR) object. • Provide handlers for responses. • Manipulate the DOM. • The XMLHttpRequest object: • Allows scripts to perform HTTP client functionality. • Supports GET and POST operations.
Launching HTTP Requests Typically, 3 steps are required: 1.Construct and configure an XMLHttpRequest object 2.Launch the request 3.Process the response
Constructing an XMLHttpRequest In all modern browsers: In older Microsoft browsers (IE 5 and 6): (The XMLHttpRequest object is not specified in any W3C recommendation – it is not a W3C standard) var request = newXMLHttpRequest(); var request = new ActiveXObject("Microsoft.XMLHTTP");
Configuring an XMLHttpRequest request.open("method","URL",isAsynchronous) • methodis GET, POST, etc. • URL must be in the domain of the current (or a relative URL), for security reasons • The isAsynchronous boolean parameter will be discussed later request.setRequestHeader("header","value")
Launching the Request request.send(content) • content is the posted in a POST request • content can be null or empty
Reading the Response The XHR Object request.responseText • The response as flat text request.responseXML • The response as a (DOM) Document object • Available if response Content-Type is text/XML request.status request.statusText request.getAllResponseHeaders() request.getResponseHeader("header")
An Example <html> <head> <title>Jokes</title> <script type="text/javascript"> ... 2 slides ahead ... </script> </head>
An Example (Cont.) <bodyonload="init(); setJoke()"> <h2>Current date on server:<spanid="serverTimeSpan“>? </span><h2> <h1>Select a Joke:</h1> <p><select onchange="presentServerTime();setJoke(value)"> <optionvalue="1"selected="selected">Joke 1</option> <optionvalue="2">Joke 2</option> <optionvalue="3">Joke 3</option> </select></p> <divid="jokediv"></div> </body> </html>
<script type="text/javascript"> varjokeDiv; vartimeSpan; function init() { jokeDiv=document.getElementById("jokediv"); timeSpan=document.getElementById("serverTimeSpan"); } functionpresentServerTime() { var request = newXMLHttpRequest(); request.open("GET", "current-time.jsp", false); request.send(null); if (request.status == 200) timeSpan.innerHTML = request.responseText; else timeSpan.innerHTML="Cannot load server time..."; {
functionsetJoke(value) { var request = newXMLHttpRequest(); request.open("GET", "joke" + value + ".txt", false); request.send(null); if (request.status == 200) jokeDiv.innerHTML = request.responseText; else jokeDiv.innerHTML = "Cannot load joke..."; { </script>
current-time.jsp <%=new java.util.Date() %> <% long t0,t1; t0=System.currentTimeMillis(); do{ t1=System.currentTimeMillis(); { while (t1-t0<3000);//wait for 3 seconds %>
Example (Cont.) • Our examples use “false" in the third parameter of open(). • This parameter specifies whether the request should be handled asynchronously. • As you can notice by running this example, the joke only appear after the JSP response is received. • True means that the script continues to run after the send() method, without waiting for a response from the server.
