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AndroidX设计架构MVVM之LiveDatal2.1.0生命周期及数据监听分析
原文
AndroidX设计架构MVVM之ViewModel创建流程原理分析
AndroidX设计架构MVVM之ViewModel生命周期分析
AndroidX设计架构MVVM之LiveDatal生命周期及数据监听分析
AndroidX设计架构MVVM之DataBinding搭配LiveData的分析
AndroidX设计架构MVVM之DataBinding+ViewModel+LiveData
LiveData的简单使用,详细使用参考其他^^
//分析点1
getViewModel().getUserInfo().observe(this, new Observer<UserBean>() {
@Override
public void onChanged(UserBean userBean) {
Toast.makeText(MvvmMainActivity.this, userBean.getName(), Toast.LENGTH_SHORT).show();
}
});
//分析点2
getViewModel().getUserInfo().setValue(UserBean.UserBeanBuilder.newBuilder().setName("小明").setAge("11").build());
分析点1:主要有两部分1)对View生命周期进行监听,2)对LiveData数据进行监听
@MainThread
public void observe(@NonNull LifecycleOwner owner, @NonNull Observer<? super T> observer) {
assertMainThread("observe");
//在destroy中直接返回
if (owner.getLifecycle().getCurrentState() == DESTROYED) {
// ignore
return;
}
//分析点3
LifecycleBoundObserver wrapper = new LifecycleBoundObserver(owner, observer);
//将包装的Observer保存在livedata的观察者列表中
ObserverWrapper existing = mObservers.putIfAbsent(observer, wrapper);
if (existing != null && !existing.isAttachedTo(owner)) {
throw new IllegalArgumentException("Cannot add the same observer"
+ " with different lifecycles");
}
if (existing != null) {
return;
}
//添加到view生命周期的观察者集合中
owner.getLifecycle().addObserver(wrapper);
}
先看分析点3:LifecycleBoundObserver实现了LifecycleEventObserver ,而LifecycleEventObserver 继承了LifecycleObserver,因此可以添加到View的生命周期的观察者列表中。
先看一下LifecycleBoundObserver的父类ObserverWrapper,它有通知当前监听者的功能 ,详情看注释
private abstract class ObserverWrapper {
final Observer<? super T> mObserver;
boolean mActive;
int mLastVersion = START_VERSION;
ObserverWrapper(Observer<? super T> observer) {
//这里是代码中new出来的的那个observer对象,从子类中传入的
mObserver = observer;
}
abstract boolean shouldBeActive();
boolean isAttachedTo(LifecycleOwner owner) {
return false;
}
void detachObserver() {
}
//向当前的监听者进行通知
void activeStateChanged(boolean newActive) {
//生命周期没有变化,直接返回,即没有出现【onStart,onPause】区间和
//非【onStart,onPause】区间的切换
if (newActive == mActive) {
return;
}
// immediately set active state, so we'd never dispatch anything to inactive
// owner
mActive = newActive;
//mActiveCount = 0时说明处于非
boolean wasInactive = LiveData.this.mActiveCount == 0;
LiveData.this.mActiveCount += mActive ? 1 : -1;
if (wasInactive && mActive) {
//生命周期状态在 started 或 resumed时,且是从非活动状态切换过来的
onActive();
}
if (LiveData.this.mActiveCount == 0 && !mActive) {
onInactive();
}
//mActive为true时,表示生命周期从Inactive转换到了active状态
//这时要刷新数据
if (mActive) {
// 分析点4 :向当前的监听者进行通知
dispatchingValue(this);
}
}
}
而子类LifecycleBoundObserver 主要负责生命周期的判断以及传递
class LifecycleBoundObserver extends ObserverWrapper implements LifecycleEventObserver {
@NonNull
final LifecycleOwner mOwner;
LifecycleBoundObserver(@NonNull LifecycleOwner owner, Observer<? super T> observer) {
super(observer);
mOwner = owner;
}
@Override
boolean shouldBeActive() {
//判断当前生命周期是否在【onStart,onPause】区间
return mOwner.getLifecycle().getCurrentState().isAtLeast(STARTED);
}
@Override
public void onStateChanged(LifecycleOwner source, Lifecycle.Event event) {
if (mOwner.getLifecycle().getCurrentState() == DESTROYED) {
removeObserver(mObserver);
return;
}
//传递对生命周期的判断
activeStateChanged(shouldBeActive());
}
@Override
boolean isAttachedTo(LifecycleOwner owner) {
return mOwner == owner;
}
@Override
void detachObserver() {
mOwner.getLifecycle().removeObserver(this);
}
}
接下来看分析点2:setValue()方法中对value的版本进行了记录mVersion,这个随后看。
@MainThread
protected void setValue(T value) {
assertMainThread("setValue");
//记录当前版本
mVersion++;
mData = value;
dispatchingValue(null);
}
那么分析点2和分析点4的区别就在于dispatchingValue()传值是否为null。
void dispatchingValue(@Nullable ObserverWrapper initiator) {
//通知各个监听者中
if (mDispatchingValue) {
mDispatchInvalidated = true;
return;
}
mDispatchingValue = true;
do {
mDispatchInvalidated = false;
if (initiator != null) {
//不为空,则只通知传入的监听者
considerNotify(initiator);//分析点5
initiator = null;
} else {
//则通知所有的监听者
for (Iterator<Map.Entry<Observer<? super T>, ObserverWrapper>> iterator =
mObservers.iteratorWithAdditions(); iterator.hasNext(); ) {
//分析点5
considerNotify(iterator.next().getValue());
if (mDispatchInvalidated) {
break;
}
}
}
} while (mDispatchInvalidated);
mDispatchingValue = false;
}
分析点5:到这一步才是真正的对观察者的通知
private void considerNotify(ObserverWrapper observer) {
//不是活动状态,直接返回,那还这么更新数据?总结中分析
if (!observer.mActive) {
return;
}
// Check latest state b4 dispatch. Maybe it changed state but we didn't get the event yet.
//
// we still first check observer.active to keep it as the entrance for events. So even if
// the observer moved to an active state, if we've not received that event, we better not
// notify for a more predictable notification order.
//再判断一遍活动状态
if (!observer.shouldBeActive()) {
observer.activeStateChanged(false);
return;
}
//value 当前版本不大于上一次的,直接返回
if (observer.mLastVersion >= mVersion) {
return;
}
//更新上一次的value版本
observer.mLastVersion = mVersion;
//noinspection unchecked
//onChanged 眼熟吧,就是在代码中创建observer的方法
observer.mObserver.onChanged((T) mData);
}
接下来简单分析一下postValue():其实就在利用Handler来切换到主线程的。
protected void postValue(T value) {
boolean postTask;
synchronized (mDataLock) {
postTask = mPendingData == NOT_SET;
mPendingData = value;
}
if (!postTask) {
return;
}
ArchTaskExecutor.getInstance().postToMainThread(mPostValueRunnable);
}
private final Runnable mPostValueRunnable = new Runnable() {
@Override
public void run() {
Object newValue;
synchronized (mDataLock) {
newValue = mPendingData;
mPendingData = NOT_SET;
}
//noinspection unchecked
setValue((T) newValue);
}
};
总结:
1)livedata的observe(),将传入的LifecycleOwner和Observer封装为LifecycleBoundObserver对象,并保存到LiveData的观察者集合中,同时加入到View的生命周期观察者集合中。
2)(参考分析点3)当生命周期由InActive状态切换到Active状态时会通知当前的LiveData的观察者,这个主要用于在InActive状态时数据发生变化时进行刷新。
3)而使用setValue()时,将通知LiveData所有观察者。