在5.0以后大家在使用列表控件時已經(jīng)逐漸的使用recycleView來代替ListView了，但是很多人并不了解recycleView的高效率的刷新方式

首先我們先介紹一下recycleView自帶的刷新方式：

1.使用 Adapter.notifyDataSetChanged();

優(yōu)點：簡單 粗暴 直接刷新所有的Item布局

缺點：（1）刷新的太多了 影響效率 ，如果遇到復(fù)雜的邏輯容易卡頓
（2）刷新的時候無法觸發(fā) recycleView 的動畫

2.自帶的局部刷新

Adapter.notifyItemChanged(int)

Adapter.notifyItemInserted(int)

Adapter.notifyItemRangeChanged(int,int)

Adapter.notifyItemRangeInserted(int,int)

Adapter.notifyItemRangeRemoved(int,int)

優(yōu)點：不用刷新整個列表可以局部刷新 提高效率

缺點： 每次刷新都要知道position 如果刷新單條比較好使 擔(dān)當(dāng)刷新條目比較多的時候需要單獨計算每個條目的position不是很方便

3.使用DiffUtil android recycleView-24以后自帶的比對數(shù)據(jù)的類

使用方法：
（1）正常創(chuàng)建adapter 注意設(shè)置數(shù)據(jù)是新建一個List 去接受數(shù)據(jù)

public void setData(List<TextModel> data) {
    this.data = new ArrayList<>(data);
}

因為在比較的時候需要oldList與新 newList 比較才能得出變化的數(shù)據(jù)

（2）創(chuàng)建DiffUtil.Callback

public class MyCallback extends DiffUtil.Callback {

  private List<TextModel> old_students, new_students;

  public MyCallback(List<TextModel> data, List<TextModel> students) {
    this.old_students = data;
    this.new_students = students;
  }

  @Override
  public int getOldListSize() {
    return old_students.size();
 }

  @Override
  public int getNewListSize() {
      return new_students.size();
  }

  // 判斷Item是否已經(jīng)存在
  @Override
  public boolean areItemsTheSame(int oldItemPosition, int newItemPosition) {
    return old_students.get(oldItemPosition).getTextTitle() == new_students.get(newItemPosition).getTextTitle();
  }

// 如果Item已經(jīng)存在則會調(diào)用此方法，判斷Item的內(nèi)容是否一致
  @Override
  public boolean areContentsTheSame(int oldItemPosition, int newItemPosition) {
    return old_students.get(oldItemPosition).getTextContent().equals(new_students.get(newItemPosition).getTextContent());
  }
}

在這里面需要聲明 判斷Item是否已經(jīng)存在 條件 和 如果Item已經(jīng)存在則會調(diào)用此方法，判斷Item的內(nèi)容是否一致 條件。

(3)得到比較結(jié)果重新設(shè)置數(shù)據(jù)

    DiffUtil.DiffResult result = DiffUtil.calculateDiff(new MyCallback(oldList, mTextModels), true);
    myAdapter.setData(mTextModels);
    result.dispatchUpdatesTo(myAdapter);

優(yōu)點：可以自定義比較兩個列表中的數(shù)據(jù)并刷新

缺點：（1）DiffUtil.calculateDiff()這個方法是執(zhí)行在主線程的，如果新舊數(shù)據(jù)List比較大，那么這個方法會阻塞主線程可能出現(xiàn)出現(xiàn)ANR
（2）比較完成后必須調(diào)用result.dispatchUpdatesTo(myAdapter)重新設(shè)置數(shù)據(jù)

(4)使用AsyncListDiff android recycleView-27以后自帶的比對數(shù)據(jù)的類
android 在recycleView 的V27包對原來的數(shù)據(jù)比對類進行了更新 產(chǎn)生的一個新的數(shù)據(jù)比對類就是 AsyncListDiff

使用方法：

（1）創(chuàng)建adapter并在adapter中自實現(xiàn)DiffUtil.ItemCallback，給出item差異性計算條件

 public class MyItemCallBack extends DiffUtil.ItemCallback<TextModel> {
    @Override
    public boolean areItemsTheSame(@NonNull TextModel oldItem, @NonNull TextModel newItem) {
      return TextUtils.equals(oldItem.getTextTitle(), newItem.getTextTitle());
    }

    @Override
    public boolean areContentsTheSame(@NonNull TextModel oldItem, @NonNull TextModel newItem) {
      return TextUtils.equals(oldItem.getTextContent(), newItem.getTextContent());
    }
}

（2）將所有對數(shù)據(jù)的操作代理給AsyncListDiffer，可以看到這個Adapter是沒有List數(shù)據(jù)的

public class MyDiffAdapter  extends RecyclerView.Adapter {
  private Context mContext;
  private AsyncListDiffer<TextModel> mTextDiffl;
  private DiffUtil.ItemCallback<TextModel> diffCallback = new MyItemCallBack();

  public MyDiffAdapter(Context mContext) {
      this.mContext = mContext;
      mTextDiffl = new AsyncListDiffer<>(this, diffCallback);
  }

  @NonNull
  @Override
  public RecyclerView.ViewHolder onCreateViewHolder(ViewGroup parent, int viewType) {
      View itemView = LayoutInflater.from(mContext).inflate(R.layout.item_view, null);
      return new MyViewHolder(itemView);
  }

  @Override
  public void onBindViewHolder(RecyclerView.ViewHolder holder, int position) {
      MyAdapter.MyViewHolder myViewHolder = (MyAdapter.MyViewHolder) holder;
      TextModel textModel = getItem(position);
      myViewHolder.tv.setText(textModel.getTextTitle() + "." + textModel.getTextContent());
  }

  @Override
  public int getItemCount() {
      return mTextDiffl.getCurrentList().size();
  }
  public void submitList(List<TextModel> data) {
    mTextDiffl.submitList(data);
  }

  public TextModel getItem(int position) {
      return mTextDiffl.getCurrentList().get(position);
  }

  class MyViewHolder extends RecyclerView.ViewHolder {
      TextView tv;

      MyViewHolder(View itemView) {
          super(itemView);
          tv = (TextView) itemView.findViewById(R.id.item_tv);
    }
  }
}

（3）使用submitList()更新數(shù)據(jù)，并刷新ui

public void change1() {
    for(int i = 0; i<10;i++){
        TextModel textModel= new TextModel("aa"+i,"bb"+i%3);
        mTextModels.add(textModel);
    }
    myDiffAdapter.submitList(mTextModels);
}

對比之前DiffUtil 優(yōu)點：（1）不用創(chuàng)來那個兩個List比較
（2）將比較放在了子線程中 不再中主線程中比較減少刷新造成的卡頓
下面解析一下 AsyncListDiffer的源碼

public class AsyncListDiffer<T> {
  private final ListUpdateCallback mUpdateCallback;
  final AsyncDifferConfig<T> mConfig;
  final Executor mMainThreadExecutor;
  private static final Executor sMainThreadExecutor = new AsyncListDiffer.MainThreadExecutor();
  @Nullable
  private List<T> mList;
  @NonNull
  private List<T> mReadOnlyList;
  int mMaxScheduledGeneration;

  public AsyncListDiffer(@NonNull Adapter adapter, @NonNull ItemCallback<T> diffCallback) {
      this((ListUpdateCallback)(new AdapterListUpdateCallback(adapter)), (AsyncDifferConfig)(new Builder(diffCallback)).build());
  }

  public AsyncListDiffer(@NonNull ListUpdateCallback listUpdateCallback, @NonNull AsyncDifferConfig<T> config) {
      this.mReadOnlyList = Collections.emptyList();
      this.mUpdateCallback = listUpdateCallback;
      this.mConfig = config;
      if (config.getMainThreadExecutor() != null) {
          this.mMainThreadExecutor = config.getMainThreadExecutor();
      } else {
          this.mMainThreadExecutor = sMainThreadExecutor;
      }

  }

  @NonNull
  public List<T> getCurrentList() {
      return this.mReadOnlyList;
  }

  public void submitList(@Nullable final List<T> newList) {
      // 用于控制計算線程，防止在上一次submitList未完成時，
      // 又多次調(diào)用submitList，這里只返回最后一個計算的DiffResult
      final int runGeneration = ++this.mMaxScheduledGeneration;
      if (newList != this.mList) {
          if (newList == null) {
              int countRemoved = this.mList.size();
              this.mList = null;
              this.mReadOnlyList = Collections.emptyList();
              this.mUpdateCallback.onRemoved(0, countRemoved);
          } else if (this.mList == null) {
              this.mList = newList;
              this.mReadOnlyList = Collections.unmodifiableList(newList);
              this.mUpdateCallback.onInserted(0, newList.size());
          } else {
              final List<T> oldList = this.mList;
              this.mConfig.getBackgroundThreadExecutor().execute(new Runnable() {
                  public void run() {
                      final DiffResult result = DiffUtil.calculateDiff(new Callback() {
                          public int getOldListSize() {
                              return oldList.size();
                          }

                          public int getNewListSize() {
                              return newList.size();
                          }

                          public boolean areItemsTheSame(int oldItemPosition, int newItemPosition) {
                              T oldItem = oldList.get(oldItemPosition);
                              T newItem = newList.get(newItemPosition);
                              if (oldItem != null && newItem != null) {
                                  return AsyncListDiffer.this.mConfig.getDiffCallback().areItemsTheSame(oldItem, newItem);
                              } else {
                                  return oldItem == null && newItem == null;
                              }
                        }

                          public boolean areContentsTheSame(int oldItemPosition, int newItemPosition) {
                              T oldItem = oldList.get(oldItemPosition);
                              T newItem = newList.get(newItemPosition);
                              if (oldItem != null && newItem != null) {
                                  return AsyncListDiffer.this.mConfig.getDiffCallback().areContentsTheSame(oldItem, newItem);
                              } else if (oldItem == null && newItem == null) {
                                  return true;
                              } else {
                                  throw new AssertionError();
                              }
                          }

                          @Nullable
                          public Object getChangePayload(int oldItemPosition, int newItemPosition) {
                              T oldItem = oldList.get(oldItemPosition);
                              T newItem = newList.get(newItemPosition);
                              if (oldItem != null && newItem != null) {
                                  return AsyncListDiffer.this.mConfig.getDiffCallback().getChangePayload(oldItem, newItem);
                              } else {
                                  throw new AssertionError();
                              }
                          }
                      });
                      AsyncListDiffer.this.mMainThreadExecutor.execute(new Runnable() {
                          public void run() {
                              if (AsyncListDiffer.this.mMaxScheduledGeneration == runGeneration) {
                                 AsyncListDiffer.this.latchList(newList, result);
                              }

                          }
                      });
                  }
              });
          }
      }
  }

  void latchList(@NonNull List<T> newList, @NonNull DiffResult diffResult) {
      this.mList = newList;
      this.mReadOnlyList = Collections.unmodifiableList(newList);
      diffResult.dispatchUpdatesTo(this.mUpdateCallback);
  }

  private static class MainThreadExecutor implements Executor {
      final Handler mHandler = new Handler(Looper.getMainLooper());

      MainThreadExecutor() {
      }

      public void execute(@NonNull Runnable command) {
          this.mHandler.post(command);
      }
  }
}

他其實就是google自己對DiffUtil進行的一次封裝
（1）首先在構(gòu)造方法中創(chuàng)建線程池進行管理
（2）submitList時候先判斷數(shù)組的內(nèi)存地址是否相同
（3）判空
（4）開啟子線程使用DiffUtil.calculateDiff進行數(shù)據(jù)比較
（5）回調(diào)

demo github地址：https://github.com/525642022/localRefresh