// @tag core /** * @class Ext.util.DelayedTask * * The DelayedTask class provides a convenient way to "buffer" the execution of a method, * performing setTimeout where a new timeout cancels the old timeout. When called, the * task will wait the specified time period before executing. If durng that time period, * the task is called again, the original call will be cancelled. This continues so that * the function is only called a single time for each iteration. * * This method is especially useful for things like detecting whether a user has finished * typing in a text field. An example would be performing validation on a keypress. You can * use this class to buffer the keypress events for a certain number of milliseconds, and * perform only if they stop for that amount of time. * * ## Usage * * var task = new Ext.util.DelayedTask(function(){ * alert(Ext.getDom('myInputField').value.length); * }); * * // Wait 500ms before calling our function. If the user presses another key * // during that 500ms, it will be cancelled and we'll wait another 500ms. * Ext.get('myInputField').on('keypress', function() { * task.{@link #delay}(500); * }); * * Note that we are using a DelayedTask here to illustrate a point. The configuration * option `buffer` for {@link Ext.util.Observable#addListener addListener/on} will * also setup a delayed task for you to buffer events. * * @constructor The parameters to this constructor serve as defaults and are not required. * @param {Function} fn (optional) The default function to call. If not specified here, it must be specified during the {@link #delay} call. * @param {Object} scope (optional) The default scope (The **`this`** reference) in which the * function is called. If not specified, `this` will refer to the browser window. * @param {Array} args (optional) The default Array of arguments. * @param {Boolean} [cancelOnDelay=true] By default, each call to {@link #delay} cancels any pending invocation and reschedules a new * invocation. Specifying this as `false` means that calls to {@link #delay} when an invocation is pending just update the call settings, * `newDelay`, `newFn`, `newScope` or `newArgs`, whichever are passed. */Ext.util = Ext.util || {};Ext.util.DelayedTask = function(fn, scope, args, cancelOnDelay, fireIdleEvent) {// @define Ext.util.DelayedTask // @uses Ext.GlobalEvents var me = this, delay, call = function() { var globalEvents = Ext.GlobalEvents; clearInterval(me.id); me.id = null; fn.apply(scope, args || []); if (fireIdleEvent !== false && globalEvents.hasListeners.idle) { globalEvents.fireEvent('idle'); } }; cancelOnDelay = typeof cancelOnDelay === 'boolean' ? cancelOnDelay : true; /** * @property {Number} id * The id of the currently pending invocation. Will be set to `null` if there is no * invocation pending. */ me.id = null; /** * By default, cancels any pending timeout and queues a new one. * * If the `cancelOnDelay` parameter was specified as `false` in the constructor, this does not cancel and * reschedule, but just updates the call settings, `newDelay`, `newFn`, `newScope` or `newArgs`, whichever are passed. * * @param {Number} newDelay The milliseconds to delay * @param {Function} newFn (optional) Overrides function passed to constructor * @param {Object} newScope (optional) Overrides scope passed to constructor. Remember that if no scope * is specified, <code>this</code> will refer to the browser window. * @param {Array} newArgs (optional) Overrides args passed to constructor */ me.delay = function(newDelay, newFn, newScope, newArgs) { if (cancelOnDelay) { me.cancel(); } if (typeof newDelay === 'number') { delay = newDelay; } fn = newFn || fn; scope = newScope || scope; args = newArgs || args; if (!me.id) { me.id = Ext.interval(call, delay); } }; /** * Cancel the last queued timeout */ me.cancel = function() { if (me.id) { clearInterval(me.id); me.id = null; } };};