前言
在RecyclerView实现多种Item类型列表时,有很多种实现方式,这里结合 AsyncListDiffer+DataBinding+Lifecycles 实现一种简单,方便,快捷并以数据驱动UI变化的MultiTypeAdapter
- AsyncListDiffer 一个在后台线程中使用DiffUtil计算两组新旧数据之间差异性的辅助类。
- DataBinding 以声明方式将可观察的数据绑定到界面元素。
- Lifecycles 管理您的 Activity 和 Fragment 生命周期。
Tip: 对DataBinding和Lifecycles不熟悉的小伙伴可点击查看官方介绍。
效果图
1. 定义一个基类MultiTypeBinder方便统一实现与管理
MultiTypeBinder中部分函数说明:
- layoutId():初始化xml。
- areContentsTheSame():该方法用于数据内容比较,比较两次内容是否一致,刷新UI时用到。
- onBindViewHolder(binding: V):与RecyclerView.Adapter中的onBindViewHolder方法功能一致,在该方法中做一些数据绑定与处理,不过这里推荐使用DataBinding去绑定数据,以数据去驱动UI。
- onUnBindViewHolder():该方法处理一些需要释放的资源。
继承MultiTypeBinder后进行Layout初始化和数据绑定及解绑处理
abstract class MultiTypeBinder<V : ViewDataBinding> : ClickBinder() {
/**
* BR.data
*/
protected open val variableId = BR.data
/**
* 被绑定的ViewDataBinding
*/
open var binding: V? = null
/**
* 给绑定的View设置tag
*/
private var bindingViewVersion = (0L until Long.MAX_VALUE).random()
/**
* 返回LayoutId,供Adapter使用
*/
@LayoutRes
abstract fun layoutId(): Int
/**
* 两次更新的Binder内容是否相同
*/
abstract fun areContentsTheSame(other: Any): Boolean
/**
* 绑定ViewDataBinding
*/
fun bindViewDataBinding(binding: V) {
// 如果此次绑定与已绑定的一至,则不做绑定
if (this.binding === binding && binding.root.getTag(R.id.bindingVersion) == bindingViewVersion) return
binding.root.setTag(R.id.bindingVersion, ++bindingViewVersion)
onUnBindViewHolder()
this.binding = binding
binding.setVariable(variableId, this)
// 给 binding 绑定生命周期,方便观察LiveData的值,进而更新UI。如果不绑定,LiveData的值改变时,UI不会更新
if (binding.root.context is LifecycleOwner) {
binding.lifecycleOwner = binding.root.context as LifecycleOwner
} else {
binding.lifecycleOwner = AlwaysActiveLifecycleOwner()
}
onBindViewHolder(binding)
// 及时更新绑定数据的View
binding.executePendingBindings()
}
/**
* 解绑ViewDataBinding
*/
fun unbindDataBinding() {
if (this.binding != null) {
onUnBindViewHolder()
this.binding = null
}
}
/**
* 绑定后对View的一些操作,如:赋值,修改属性
*/
protected open fun onBindViewHolder(binding: V) {
}
/**
* 解绑操作
*/
protected open fun onUnBindViewHolder() {
}
/**
* 为 Binder 绑定生命周期,在 {@link Lifecycle.Event#ON_RESUME} 时响应
*/
internal class AlwaysActiveLifecycleOwner : LifecycleOwner {
override fun getLifecycle(): Lifecycle = object : LifecycleRegistry(this) {
init {
handleLifecycleEvent(Event.ON_RESUME)
}
}
}
}
在values中定义一个ids.xml文件,给 ViewDataBinding 中的 root View设置Tag
<resources>
<item name="bindingVersion" type="id" />
</resources>
2.处理MultiTypeBinder中View的点击事件
在ClickBinder中提供了两种事件点击方式 onClick 和 onLongClick,分别提供了携带参数和未带参数方法
open class ClickBinder {
protected open var mOnClickListener: ((view: View, any: Any?) -> Unit)? = null
protected open var mOnLongClickListener: ((view: View, any: Any?) -> Unit)? = null
/**
* 设置View点击事件
*/
open fun setOnClickListener(listener: (view: View, any: Any?) -> Unit): ClickBinder {
this.mOnClickListener = listener
return this
}
/**
* 设置View长按点击事件
*/
open fun setOnLongClickListener(listener: (view: View, any: Any?) -> Unit): ClickBinder {
this.mOnLongClickListener = listener
return this
}
/**
* 触发View点击事件时回调,携带参数
*/
open fun onClick(view: View) {
onClick(view, this)
}
open fun onClick(view: View, any: Any?) {
if (mOnClickListener != null) {
mOnClickListener?.invoke(view, any)
} else {
if (BuildConfig.DEBUG) throw NullPointerException("OnClick事件未绑定!")
}
}
/**
* 触发View长按事件时回调,携带参数
*/
open fun onLongClick(view: View) {
onLongClick(view, this)
}
open fun onLongClick(view: View, any: Any?){
if (mOnLongClickListener != null) {
mOnLongClickListener?.invoke(view, any)
} else {
if (BuildConfig.DEBUG) throw NullPointerException("OnLongClick事件未绑定!")
}
}
}
定义接口 OnViewClickListener ,若是给 Binder 中的 View 添加点击事件时,可实现此接口。
interface OnViewClickListener {
// 不需要额外参数事件时,默认转发给带额外参数事件
fun onClick(view: View) {
onClick(view, null)
}
fun onClick(view: View, any: Any?) {
}
}
3.定义MultiTypeViewHolder
MultiTypeViewHolder继承自RecyclerView.ViewHolder,传入一个ViewDataBinding对象,在这里对MultiTypeBinder中的ViewDataBinding对象进行解绑和绑定操作。
class MultiTypeViewHolder(private val binding: ViewDataBinding) : RecyclerView.ViewHolder(binding.root), AutoCloseable {
private var mAlreadyBinding: MultiTypeBinder<ViewDataBinding>? = null
/**
* 绑定Binder
*/
fun onBindViewHolder(items: MultiTypeBinder<ViewDataBinding>) {
// 如果两次绑定的 Binder 不一致,则直接销毁
if (mAlreadyBinding != null && items !== mAlreadyBinding) close()
// 开始绑定
items.bindViewDataBinding(binding)
// 保存绑定的 Binder
mAlreadyBinding = items
}
/**
* 销毁绑定的Binder
*/
override fun close() {
mAlreadyBinding?.unbindDataBinding()
mAlreadyBinding = null
}
}
4.使用DiffUtil.ItemCallback进行差异性计算
在刷新列表时这里使用了DiffUtil.ItemCallback来做差异性计算,方法说明:
- areItemsTheSame(oldItem: T, newItem: T):比较两次MultiTypeBinder是否时同一个Binder
- areContentsTheSame(oldItem: T, newItem: T):比较两次MultiTypeBinder的类容是否一致。
class DiffItemCallback<T : MultiTypeBinder<*>> : DiffUtil.ItemCallback<T>() {
override fun areItemsTheSame(oldItem: T, newItem: T): Boolean {
return oldItem.layoutId() == newItem.layoutId()
}
override fun areContentsTheSame(oldItem: T, newItem: T): Boolean {
return oldItem.hashCode() == newItem.hashCode() && oldItem.areContentsTheSame(newItem)
}
}
5.定义MultiTypeAdapter
在MultiTypeAdapter中的逻辑实现思路如下:
- 使用 LinkedHashMap 来存储每个 Binder 和 Binder 对应的 Type 值,确保顺序。
- 在 getItemViewType(position: Int) 函数中添加 Binder 类型
- 在 onCreateViewHolder(parent: ViewGroup, viewType: Int) 方法中对 Binder 的 Layout 进行初始化,其中 inflateDataBinding 为 Kotlin 扩展,主要是将 Layout 转换为一个 ViewDataBinding 的对象。
- 在 onBindViewHolder(holder: MultiTypeViewHolder, position: Int) 方法中调用 Binder 中的绑定方法,用以绑定数据。
- 使用 AsyncListDiffer 工具返回当前列表数据和刷新列表,具体用法下文说明
class MultiTypeAdapter: RecyclerView.Adapter<MultiTypeViewHolder>(){
// 使用后台线程通过差异性计算来更新列表
private val mAsyncListChange by lazy { AsyncListDiffer(this, DiffItemCallback<MultiTypeBinder<*>>()) }
// 存储 Layout 和 Layout Type
private var mHashCodeViewType = LinkedHashMap<Int, MultiTypeBinder<*>>()
init {
setHasStableIds(true)
}
fun notifyAdapterChanged(binders: List<MultiTypeBinder<*>>) {
mHashCodeViewType = LinkedHashMap()
binders.forEach {
mHashCodeViewType[it.hashCode()] = it
}
mAsyncListChange.submitList(mHashCodeViewType.map { it.value })
}
fun notifyAdapterChanged(binders: MultiTypeBinder<*>) {
mHashCodeViewType = LinkedHashMap()
mHashCodeViewType[binders.hashCode()] = binders
mAsyncListChange.submitList(mHashCodeViewType.map { it.value })
}
override fun getItemViewType(position: Int): Int {
val mItemBinder = mAsyncListChange.currentList[position]
val mHasCode = mItemBinder.hashCode()
// 如果Map中不存在当前Binder的hasCode,则向Map中添加当前类型的Binder
if (!mHashCodeViewType.containsKey(mHasCode)) {
mHashCodeViewType[mHasCode] = mItemBinder
}
return mHasCode
}
override fun getItemId(position: Int): Long = position.toLong()
override fun getItemCount(): Int = mAsyncListChange.currentList.size
override fun onCreateViewHolder(parent: ViewGroup, viewType: Int): MultiTypeViewHolder {
try {
return MultiTypeViewHolder(parent.inflateDataBinding(mHashCodeViewType[viewType]?.layoutId()!!))
}catch (e: Exception){
throw NullPointerException("不存在${mHashCodeViewType[viewType]}类型的ViewHolder!")
}
}
@Suppress("UNCHECKED_CAST")
override fun onBindViewHolder(holder: MultiTypeViewHolder, position: Int) {
val mCurrentList = mAsyncListChange.currentList[position] as MultiTypeBinder<ViewDataBinding>
holder.itemView.tag = mCurrentList
holder.onBindViewHolder(mCurrentList)
}
}
6.定义扩展Adapters文件
/**
* 创建一个MultiTypeAdapter
*/
fun createMultiTypeAdapter(recyclerView: RecyclerView, layoutManager: RecyclerView.LayoutManager): MultiTypeAdapter {
recyclerView.layoutManager = layoutManager
val mMultiTypeAdapter = MultiTypeAdapter()
recyclerView.adapter = mMultiTypeAdapter
// 处理RecyclerView的触发回调
recyclerView.addOnAttachStateChangeListener(object : View.OnAttachStateChangeListener {
override fun onViewDetachedFromWindow(v: View?) {
mMultiTypeAdapter.onDetachedFromRecyclerView(recyclerView)
}
override fun onViewAttachedToWindow(v: View?) { }
})
return mMultiTypeAdapter
}
/**
* MultiTypeAdapter扩展函数,重载MultiTypeAdapter类,使用invoke操作符调用MultiTypeAdapter内部函数。
*/
inline operator fun MultiTypeAdapter.invoke(block: MultiTypeAdapter.() -> Unit): MultiTypeAdapter {
this.block()
return this
}
/**
* 将Layout转换成ViewDataBinding
*/
fun <T : ViewDataBinding> ViewGroup.inflateDataBinding(layoutId: Int): T = DataBindingUtil.inflate(LayoutInflater.from(context), layoutId, this, false)!!
/**
* RecyclerView方向注解
*/
@IntDef(
Orientation.VERTICAL,
Orientation.HORIZONTAL
)
@Target(AnnotationTarget.FIELD, AnnotationTarget.VALUE_PARAMETER)
@Retention(AnnotationRetention.SOURCE)
annotation class Orientation{
companion object{
const val VERTICAL = RecyclerView.VERTICAL
const val HORIZONTAL = RecyclerView.HORIZONTAL
}
}
7.MultiTypeAdapter使用
- 创建 MultiTypeAdapter
private val mAdapter by lazy { createMultiTypeAdapter(binding.recyclerView, LinearLayoutManager(this)) }
- 将 Binder 添加到 Adapter 中
mAdapter.notifyAdapterChanged(mutableListOf<MultiTypeBinder<*>>().apply {
add(TopBannerBinder().apply {
setOnClickListener(this@MainActivity::onClick)
})
add(CategoryContainerBinder(listOf("男装", "女装", "鞋靴", "内衣内饰", "箱包", "美妆护肤", "洗护", "腕表珠宝", "手机", "数码").map {
CategoryItemBinder(it).apply {
setOnClickListener(this@MainActivity::onClick)
}
}))
add(RecommendContainerBinder((1..8).map { RecommendGoodsBinder().apply {
setOnClickListener(this@MainActivity::onClick)
} }))
add(HorizontalScrollBinder((0..11).map { HorizontalItemBinder("$it").apply {
setOnClickListener(this@MainActivity::onClick)
} }))
add(GoodsGridContainerBinder((1..20).map { GoodsBinder(it).apply {
setOnClickListener(this@MainActivity::onClick)
} }))
})
- 点击事件处理,在Activity或Fragment中实现 OnViewClickListener 接口,重写 onClick 方法
override fun onClick(view: View, any: Any?) {
when(view.id) {
R.id.top_banner -> {
any as TopBannerBinder
toast(view, "点击Banner")
}
R.id.category_tab -> {
any as CategoryItemBinder
toast(view,"点击分类+${any.title}")
}
R.id.recommend_goods -> {
any as RecommendGoodsBinder
toast(view, "点击精选会场Item")
}
R.id.theme_index -> {
any as HorizontalItemBinder
toast(view, "点击主题会场${any.index}")
}
R.id.goods_container -> {
any as GoodsBinder
toast(view, "点击商品${any.index}")
}
}
}
8.AsyncListDiffer
一个在后台线程中使用DiffUtil计算两个列表之间的差异的辅助类。AsyncListDiffer 的计算主要submitList 方法中。
Tip: 调用submitList()方法传递数据时,需要创建一个新的集合。
public class AsyncListDiffer<T> {
// 省略其它代码......
@SuppressWarnings("WeakerAccess")
public void submitList(@Nullable final List<T> newList, @Nullable final Runnable commitCallback) {
// 定义变量 runGeneration 递增生成,用于缓存当前预执行线程的次数的最大值
final int runGeneration = ++mMaxScheduledGeneration;
// 首先判断 newList 与 AsyncListDiffer 中缓存的数据集 mList 是否为同一个对象,如果是的话,直接返回。也就是说,调用 submitList() 方法所传递数据集时,需要new一个新的List。
if (newList == mList) {
// nothing to do (Note - still had to inc generation, since may have ongoing work)
if (commitCallback != null) {
commitCallback.run();
}
return;
}
final List<T> previousList = mReadOnlyList;
// 判断 newList 是否为null。若 newList 为 null,将移除所有 Item 的操作并分发给 ListUpdateCallback,mList 置为 null,同时将只读List - mReadOnlyList 清空
if (newList == null) {
//noinspection ConstantConditions
int countRemoved = mList.size();
mList = null;
mReadOnlyList = Collections.emptyList();
// notify last, after list is updated
mUpdateCallback.onRemoved(0, countRemoved);
onCurrentListChanged(previousList, commitCallback);
return;
}
// 判断 mList 是否为null。若 mList 为null,表示这是第一次向 Adapter 添加数据集,此时将添加最新数据集操的作分发给 ListUpdateCallback,将 mList 设置为 newList, 同时将 newList 赋值给 mReadOnlyList
if (mList == null) {
mList = newList;
mReadOnlyList = Collections.unmodifiableList(newList);
// notify last, after list is updated
mUpdateCallback.onInserted(0, newList.size());
onCurrentListChanged(previousList, commitCallback);
return;
}
final List<T> oldList = mList;
// 通过AsyncDifferConfig获取到一个后台线程,在后台线程中使用DiffUtil对两个List进行差异性比较
mConfig.getBackgroundThreadExecutor().execute(new Runnable() {
@Override
public void run() {
final DiffUtil.DiffResult result = DiffUtil.calculateDiff(new DiffUtil.Callback() {
@Override
public int getOldListSize() {
return oldList.size();
}
@Override
public int getNewListSize() {
return newList.size();
}
@Override
public boolean areItemsTheSame(int oldItemPosition, int newItemPosition) {
T oldItem = oldList.get(oldItemPosition);
T newItem = newList.get(newItemPosition);
if (oldItem != null && newItem != null) {
return mConfig.getDiffCallback().areItemsTheSame(oldItem, newItem);
}
// If both items are null we consider them the same.
return oldItem == null && newItem == null;
}
@Override
public boolean areContentsTheSame(int oldItemPosition, int newItemPosition) {
T oldItem = oldList.get(oldItemPosition);
T newItem = newList.get(newItemPosition);
if (oldItem != null && newItem != null) {
return mConfig.getDiffCallback().areContentsTheSame(oldItem, newItem);
}
if (oldItem == null && newItem == null) {
return true;
}
throw new AssertionError();
}
@Nullable
@Override
public Object getChangePayload(int oldItemPosition, int newItemPosition) {
T oldItem = oldList.get(oldItemPosition);
T newItem = newList.get(newItemPosition);
if (oldItem != null && newItem != null) {
return mConfig.getDiffCallback().getChangePayload(oldItem, newItem);
}
throw new AssertionError();
}
});
// 使用AsyncDifferConfig中的主线程更新UI,先判断递增生成的 runGeneration 变量是否与 AsyncListDiffer 中当前与执行线程的次数的最大值是否相等,如果相等,将 newList 赋值给 mList ,将 newList添加到只读集合 mReadOnlyList 中,然后通知列表更新。
mMainThreadExecutor.execute(new Runnable() {
@Override
public void run() {
if (mMaxScheduledGeneration == runGeneration) {
latchList(newList, result, commitCallback);
}
}
});
}
});
}
@SuppressWarnings("WeakerAccess") /* synthetic access */
void latchList(@NonNull List<T> newList, @NonNull DiffUtil.DiffResult diffResult, @Nullable Runnable commitCallback) {
final List<T> previousList = mReadOnlyList;
mList = newList;
// 将 newList 添加到 mReadOnlyList 中
mReadOnlyList = Collections.unmodifiableList(newList);
// 通知列表更新
diffResult.dispatchUpdatesTo(mUpdateCallback);
onCurrentListChanged(previousList, commitCallback);
}
// 省略其它代码......
}
9.ListUpdateCallback
操作列表更新的接口,此类可与DiffUtil一起使用,以检测两个列表之间的变化。至于ListUpdateCallback接口具体做了那些事儿,切看以下函数:
onInserted 在指定位置插入Item时调用,position 指定位置, count 插入Item的数量
void onInserted(int position, int count);
onRemoved 在删除指定位置上的Item时调用,position 指定位置, count 删除的Item的数量
void onRemoved(int position, int count);
onMoved 当Item更改其在列表中的位置时调用, fromPosition 当前Item在移动之前的位置,toPosition 当前Item在移动之后的位置
void onMoved(int fromPosition, int toPosition);
onChanged 在指定位置更新Item时调用,position 指定位置,count 要更新的Item个数,payload 可选参数,值为null时表示全部更新,否则表示局部更新。
void onChanged(int position, int count, @Nullable Object payload);
10.ListUpdateCallback的实现类AdapterListUpdateCallback
AdapterListUpdateCallback的作用是将更新事件调度回调给Adapter,如下:
public final class AdapterListUpdateCallback implements ListUpdateCallback {
@NonNull
private final RecyclerView.Adapter mAdapter;
public AdapterListUpdateCallback(@NonNull RecyclerView.Adapter adapter) {
mAdapter = adapter;
}
@Override
public void onInserted(int position, int count) {
mAdapter.notifyItemRangeInserted(position, count);
}
@Override
public void onRemoved(int position, int count) {
mAdapter.notifyItemRangeRemoved(position, count);
}
@Override
public void onMoved(int fromPosition, int toPosition) {
mAdapter.notifyItemMoved(fromPosition, toPosition);
}
@Override
public void onChanged(int position, int count, Object payload) {
mAdapter.notifyItemRangeChanged(position, count, payload);
}
}
11.AsyncDifferConfig
AsyncDifferConfig的角色很简单,是一个DiffUtil.ItemCallback的配置类,其内部创建了一个固定大小的线程池,提供了两种线程,即后台线程和主线程,主要用于差异性计算和更新UI。AsyncDifferConfig核心代码如下:
public final class AsyncDifferConfig<T> {
// 省略其他代码......
@SuppressWarnings("WeakerAccess")
@RestrictTo(RestrictTo.Scope.LIBRARY)
@Nullable
public Executor getMainThreadExecutor() {
return mMainThreadExecutor;
}
@SuppressWarnings("WeakerAccess")
@NonNull
public Executor getBackgroundThreadExecutor() {
return mBackgroundThreadExecutor;
}
@SuppressWarnings("WeakerAccess")
@NonNull
public DiffUtil.ItemCallback<T> getDiffCallback() {
return mDiffCallback;
}
public static final class Builder<T> {
// 省略其他代码......
@NonNull
public AsyncDifferConfig<T> build() {
if (mBackgroundThreadExecutor == null) {
synchronized (sExecutorLock) {
if (sDiffExecutor == null) {
// 创建一个固定大小的线程池
sDiffExecutor = Executors.newFixedThreadPool(2);
}
}
mBackgroundThreadExecutor = sDiffExecutor;
}
return new AsyncDifferConfig<>(
mMainThreadExecutor,
mBackgroundThreadExecutor,
mDiffCallback);
}
// 省略其他代码......
}
}