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hitTest:WithEvent 和Responder Chain

时间:2015-07-30 19:20:57      阅读:158      评论:0      收藏:0      [点我收藏+]

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这个方法是找到那个View被touch,当找到后就成为响应链的第一个了,如果他不能处理这个Event,那么就找nextResponder 直至application 如果不能处理,那就会丢弃掉。

https://developer.apple.com/library/ios/documentation/EventHandling/Conceptual/EventHandlingiPhoneOS/event_delivery_responder_chain/event_delivery_responder_chain.html

以下为官方解释。

Event Delivery: The Responder Chain

When you design your app, it’s likely that you want to respond to events dynamically. For example, a touch can occur in many different objects onscreen, and you have to decide which object you want to respond to a given event and understand how that object receives the event.

When a user-generated event occurs, UIKit creates an event object containing the information needed to process the event. Then it places the event object in the active app’s event queue. For touch events, that object is a set of touches packaged in a UIEvent object. For motion events, the event object varies depending on which framework you use and what type of motion event you are interested in.

An event travels along a specific path until it is delivered to an object that can handle it. First, the singleton  UIApplication object takes an event from the top of the queue and dispatches it for handling. Typically, it sends the event to the app’s key window object, which passes the event to an initial object for handling. The initial object depends on the type of event.

  • Touch events. For touch events, the window object first tries to deliver the event to the view where the touch occurred. That view is known as the hit-test view. The process of finding the hit-test view is called hit-testing, which is described in Hit-Testing Returns the View Where a Touch Occurred.

  • Motion and remote control events. With these events, the window object sends the shaking-motion or remote control event to the first responder for handling. The first responder is described in The Responder Chain Is Made Up of Responder Objects.

The ultimate goal of these event paths is to find an object that can handle and respond to an event. Therefore, UIKit first sends the event to the object that is best suited to handle the event. For touch events, that object is the hit-test view, and for other events, that object is the first responder. The following sections explain in more detail how the hit-test view and first responder objects are determined.

Hit-Testing Returns the View Where a Touch Occurred

iOS uses hit-testing to find the view that is under a touch. Hit-testing involves checking whether a touch is within the bounds of any relevant view objects. If it is, it recursively checks all of that view’s subviews. The lowest view in the view hierarchy that contains the touch point becomes the hit-test view. After iOS determines the hit-test view, it passes the touch event to that view for handling.

To illustrate, suppose that the user touches view E in Figure 2-1. iOS finds the hit-test view by checking the subviews in this order:

  1. The touch is within the bounds of view A, so it checks subviews B and C.

  2. The touch is not within the bounds of view B, but it’s within the bounds of view C, so it checks subviews D and E.

  3. The touch is not within the bounds of view D, but it’s within the bounds of view E.

    View E is the lowest view in the view hierarchy that contains the touch, so it becomes the hit-test view.

Figure 2-1  Hit-testing returns the subview that was touched技术分享

The hitTest:withEvent: method returns the hit test view for a given CGPoint and UIEvent. The hitTest:withEvent: method begins by calling the pointInside:withEvent: method on itself. If the point passed into hitTest:withEvent: is inside the bounds of the view, pointInside:withEvent: returns YES. Then, the method recursively calls hitTest:withEvent: on every subview that returns YES.

If the point passed into hitTest:withEvent: is not inside the bounds of the view, the first call to the pointInside:withEvent: method returns NO, the point is ignored, and hitTest:withEvent: returns nil. If a subview returns NO, that whole branch of the view hierarchy is ignored, because if the touch did not occur in that subview, it also did not occur in any of that subview’s subviews. This means that any point in a subview that is outside of its superview can’t receive touch events because the touch point has to be within the bounds of the superview and the subview. This can occur if the subview’s clipsToBounds property is set to NO.

Note: A touch object is associated with its hit-test view for its lifetime, even if the touch later moves outside the view.

 

The hit-test view is given the first opportunity to handle a touch event. If the hit-test view cannot handle an event, the event travels up that view’s chain of responders as described in The Responder Chain Is Made Up of Responder Objects until the system finds an object that can handle it.

The Responder Chain Is Made Up of Responder Objects

Many types of events rely on a responder chain for event delivery. The responder chain is a series of linked responder objects. It starts with the first responder and ends with the application object. If the first responder cannot handle an event, it forwards the event to the next responder in the responder chain.

responder object is an object that can respond to and handle events. The UIResponder class is the base class for all responder objects, and it defines the programmatic interface not only for event handling but also for common responder behavior. Instances of the UIApplicationUIViewController, and UIViewclasses are responders, which means that all views and most key controller objects are responders. Note that Core Animation layers are not responders.

The first responder is designated to receive events first. Typically, the first responder is a view object. An object becomes the first responder by doing two things:

  1. Overriding the canBecomeFirstResponder method to return YES.

  2. Receiving a becomeFirstResponder message. If necessary, an object can send itself this message.

Note: Make sure that your app has established its object graph before assigning an object to be the first responder. For example, you typically call the becomeFirstResponder method in an override of the viewDidAppear: method. If you try to assign the first responder in viewWillAppear:, your object graph is not yet established, so the becomeFirstResponder method returns NO.

 

Events are not the only objects that rely on the responder chain. The responder chain is used in all of the following:

  • Touch events. If the hit-test view cannot handle a touch event, the event is passed up a chain of responders that starts with the hit-test view.

  • Motion events. To handle shake-motion events with UIKit, the first responder must implement either the motionBegan:withEvent: or motionEnded:withEvent: method of the UIResponder class, as described in Detecting Shake-Motion Events with UIEvent.

  • Remote control events. To handle remote control events, the first responder must implement the remoteControlReceivedWithEvent: method of the UIResponder class.

  • Action messages. When the user manipulates a control, such as a button or switch, and the target for the action method is nil, the message is sent through a chain of responders starting with the control view.

  • Editing-menu messages. When a user taps the commands of the editing menu, iOS uses a responder chain to find an object that implements the necessary methods (such as cut:copy:, and paste:). For more information, see Displaying and Managing the Edit Menu and the sample code project, CopyPasteTile.

  • Text editing. When a user taps a text field or a text view, that view automatically becomes the first responder. By default, the virtual keyboard appears and the text field or text view becomes the focus of editing. You can display a custom input view instead of the keyboard if it’s appropriate for your app. You can also add a custom input view to any responder object. For more information, see Custom Views for Data Input.

UIKit automatically sets the text field or text view that a user taps to be the first responder; Apps must explicitly set all other first responder objects with the becomeFirstResponder method.

The Responder Chain Follows a Specific Delivery Path

If the initial object—either the hit-test view or the first responder—doesn’t handle an event, UIKit passes the event to the next responder in the chain. (不能被处理,才会传递,虽然响应链始终是存在的,只有hit-test view or the first responder—doesn’t handle an event,该怎么处理呢?那就找下一个responder)Each responder decides whether it wants to handle the event or pass it along to its own next responder by calling the nextResponder method.This process continues until a responder object either handles the event or there are no more responders.

The responder chain sequence begins when iOS detects an event and passes it to an initial object, which is typically a view. The initial view has the first opportunity to handle an event. Figure 2-2 shows two different event delivery paths for two app configurations. An app’s event delivery path depends on its specific construction, but all event delivery paths adhere to the same heuristics.

Figure 2-2  The responder chain on iOS技术分享

For the app on the left, the event follows this path:

  1. The initial view attempts to handle the event or message. If it can’t handle the event, it passes the event to its superview, because the initial view is not the top most view in its view controller’s view hierarchy.

  2. The superview attempts to handle the event. If the superview can’t handle the event, it passes the event to its superview, because it is still not the top most view in the view hierarchy.

  3. The topmost view in the view controller’s view hierarchy attempts to handle the event. If the topmost view can’t handle the event, it passes the event to its view controller.

  4. The view controller attempts to handle the event, and if it can’t, passes the event to the window.

  5. If the window object can’t handle the event, it passes the event to the singleton  app object.

  6. If the app object can’t handle the event, it discards the event.

The app on the right follows a slightly different path, but all event delivery paths follow these heuristics:

  1. A view passes an event up its view controller’s view hierarchy until it reaches the topmost view.

  2. The topmost view passes the event to its view controller.

  3. The view controller passes the event to its topmost view’s superview.

    Steps 1-3 repeat until the event reaches the root view controller.

  4. The root view controller passes the event to the window object.

  5. The window passes the event to the app object.

Important: If you implement a custom view to handle remote control events, action messages, shake-motion events with UIKit, or editing-menu messages, don’t forward the event or message to nextResponder directly to send it up the responder chain. Instead, invoke the superclass implementation of the current event handling method and let UIKit handle the traversal of the responder chain for you.

hitTest:WithEvent 和Responder Chain

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原文地址:http://www.cnblogs.com/changeUniversal/p/4689892.html

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