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/*
 * Copyright 2016-2019 The Android Open Source Project
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package android.arch.paging;

import androidx.annotation.NonNull;
import androidx.annotation.Nullable;
import androidx.arch.core.util.Function;

import java.util.List;
import java.util.concurrent.Executor;

/**
 * Incremental data loader for page-keyed content, where requests return keys for next/previous
 * pages.
 * 

* Implement a DataSource using PageKeyedDataSource if you need to use data from page {@code N - 1} * to load page {@code N}. This is common, for example, in network APIs that include a next/previous * link or key with each page load. *

* The {@code InMemoryByPageRepository} in the * PagingWithNetworkSample * shows how to implement a network PageKeyedDataSource using * Retrofit, while * handling swipe-to-refresh, network errors, and retry. * * @param Type of data used to query Value types out of the DataSource. * @param Type of items being loaded by the DataSource. */ public abstract class PageKeyedDataSource extends ContiguousDataSource { private final Object mKeyLock = new Object(); @Nullable private Key mNextKey = null; @Nullable private Key mPreviousKey = null; private void initKeys(@Nullable Key previousKey, @Nullable Key nextKey) { synchronized (mKeyLock) { mPreviousKey = previousKey; mNextKey = nextKey; } } private void setPreviousKey(@Nullable Key previousKey) { synchronized (mKeyLock) { mPreviousKey = previousKey; } } private void setNextKey(@Nullable Key nextKey) { synchronized (mKeyLock) { mNextKey = nextKey; } } private @Nullable Key getPreviousKey() { synchronized (mKeyLock) { return mPreviousKey; } } private @Nullable Key getNextKey() { synchronized (mKeyLock) { return mNextKey; } } /** * Holder object for inputs to {@link #loadInitial(LoadInitialParams, LoadInitialCallback)}. * * @param Type of data used to query pages. */ @SuppressWarnings("WeakerAccess") public static class LoadInitialParams { /** * Requested number of items to load. *

* Note that this may be larger than available data. */ public final int requestedLoadSize; /** * Defines whether placeholders are enabled, and whether the total count passed to * {@link LoadInitialCallback#onResult(List, int, int, Key, Key)} will be ignored. */ public final boolean placeholdersEnabled; public LoadInitialParams(int requestedLoadSize, boolean placeholdersEnabled) { this.requestedLoadSize = requestedLoadSize; this.placeholdersEnabled = placeholdersEnabled; } } /** * Holder object for inputs to {@link #loadBefore(LoadParams, LoadCallback)} and * {@link #loadAfter(LoadParams, LoadCallback)}. * * @param Type of data used to query pages. */ @SuppressWarnings("WeakerAccess") public static class LoadParams { /** * Load items before/after this key. *

* Returned data must begin directly adjacent to this position. */ public final Key key; /** * Requested number of items to load. *

* Returned page can be of this size, but it may be altered if that is easier, e.g. a * network data source where the backend defines page size. */ public final int requestedLoadSize; public LoadParams(Key key, int requestedLoadSize) { this.key = key; this.requestedLoadSize = requestedLoadSize; } } /** * Callback for {@link #loadInitial(LoadInitialParams, LoadInitialCallback)} * to return data and, optionally, position/count information. *

* A callback can be called only once, and will throw if called again. *

* If you can compute the number of items in the data set before and after the loaded range, * call the five parameter {@link #onResult(List, int, int, Object, Object)} to pass that * information. You can skip passing this information by calling the three parameter * {@link #onResult(List, Object, Object)}, either if it's difficult to compute, or if * {@link LoadInitialParams#placeholdersEnabled} is {@code false}, so the positioning * information will be ignored. *

* It is always valid for a DataSource loading method that takes a callback to stash the * callback and call it later. This enables DataSources to be fully asynchronous, and to handle * temporary, recoverable error states (such as a network error that can be retried). * * @param Type of data used to query pages. * @param Type of items being loaded. */ public abstract static class LoadInitialCallback { /** * Called to pass initial load state from a DataSource. *

* Call this method from your DataSource's {@code loadInitial} function to return data, * and inform how many placeholders should be shown before and after. If counting is cheap * to compute (for example, if a network load returns the information regardless), it's * recommended to pass data back through this method. *

* It is always valid to pass a different amount of data than what is requested. Pass an * empty list if there is no more data to load. * * @param data List of items loaded from the DataSource. If this is empty, the DataSource * is treated as empty, and no further loads will occur. * @param position Position of the item at the front of the list. If there are {@code N} * items before the items in data that can be loaded from this DataSource, * pass {@code N}. * @param totalCount Total number of items that may be returned from this DataSource. * Includes the number in the initial {@code data} parameter * as well as any items that can be loaded in front or behind of * {@code data}. */ public abstract void onResult(@NonNull List data, int position, int totalCount, @Nullable Key previousPageKey, @Nullable Key nextPageKey); /** * Called to pass loaded data from a DataSource. *

* Call this from {@link #loadInitial(LoadInitialParams, LoadInitialCallback)} to * initialize without counting available data, or supporting placeholders. *

* It is always valid to pass a different amount of data than what is requested. Pass an * empty list if there is no more data to load. * * @param data List of items loaded from the PageKeyedDataSource. * @param previousPageKey Key for page before the initial load result, or {@code null} if no * more data can be loaded before. * @param nextPageKey Key for page after the initial load result, or {@code null} if no * more data can be loaded after. */ public abstract void onResult(@NonNull List data, @Nullable Key previousPageKey, @Nullable Key nextPageKey); } /** * Callback for PageKeyedDataSource {@link #loadBefore(LoadParams, LoadCallback)} and * {@link #loadAfter(LoadParams, LoadCallback)} to return data. *

* A callback can be called only once, and will throw if called again. *

* It is always valid for a DataSource loading method that takes a callback to stash the * callback and call it later. This enables DataSources to be fully asynchronous, and to handle * temporary, recoverable error states (such as a network error that can be retried). * * @param Type of data used to query pages. * @param Type of items being loaded. */ public abstract static class LoadCallback { /** * Called to pass loaded data from a DataSource. *

* Call this method from your PageKeyedDataSource's * {@link #loadBefore(LoadParams, LoadCallback)} and * {@link #loadAfter(LoadParams, LoadCallback)} methods to return data. *

* It is always valid to pass a different amount of data than what is requested. Pass an * empty list if there is no more data to load. *

* Pass the key for the subsequent page to load to adjacentPageKey. For example, if you've * loaded a page in {@link #loadBefore(LoadParams, LoadCallback)}, pass the key for the * previous page, or {@code null} if the loaded page is the first. If in * {@link #loadAfter(LoadParams, LoadCallback)}, pass the key for the next page, or * {@code null} if the loaded page is the last. * * @param data List of items loaded from the PageKeyedDataSource. * @param adjacentPageKey Key for subsequent page load (previous page in {@link #loadBefore} * / next page in {@link #loadAfter}), or {@code null} if there are * no more pages to load in the current load direction. */ public abstract void onResult(@NonNull List data, @Nullable Key adjacentPageKey); } static class LoadInitialCallbackImpl extends LoadInitialCallback { final LoadCallbackHelper mCallbackHelper; private final PageKeyedDataSource mDataSource; private final boolean mCountingEnabled; LoadInitialCallbackImpl(@NonNull PageKeyedDataSource dataSource, boolean countingEnabled, @NonNull PageResult.Receiver receiver) { mCallbackHelper = new LoadCallbackHelper<>( dataSource, PageResult.INIT, null, receiver); mDataSource = dataSource; mCountingEnabled = countingEnabled; } @Override public void onResult(@NonNull List data, int position, int totalCount, @Nullable Key previousPageKey, @Nullable Key nextPageKey) { if (!mCallbackHelper.dispatchInvalidResultIfInvalid()) { LoadCallbackHelper.validateInitialLoadParams(data, position, totalCount); // setup keys before dispatching data, so guaranteed to be ready mDataSource.initKeys(previousPageKey, nextPageKey); int trailingUnloadedCount = totalCount - position - data.size(); if (mCountingEnabled) { mCallbackHelper.dispatchResultToReceiver(new PageResult<>( data, position, trailingUnloadedCount, 0)); } else { mCallbackHelper.dispatchResultToReceiver(new PageResult<>(data, position)); } } } @Override public void onResult(@NonNull List data, @Nullable Key previousPageKey, @Nullable Key nextPageKey) { if (!mCallbackHelper.dispatchInvalidResultIfInvalid()) { mDataSource.initKeys(previousPageKey, nextPageKey); mCallbackHelper.dispatchResultToReceiver(new PageResult<>(data, 0, 0, 0)); } } } static class LoadCallbackImpl extends LoadCallback { final LoadCallbackHelper mCallbackHelper; private final PageKeyedDataSource mDataSource; LoadCallbackImpl(@NonNull PageKeyedDataSource dataSource, @PageResult.ResultType int type, @Nullable Executor mainThreadExecutor, @NonNull PageResult.Receiver receiver) { mCallbackHelper = new LoadCallbackHelper<>( dataSource, type, mainThreadExecutor, receiver); mDataSource = dataSource; } @Override public void onResult(@NonNull List data, @Nullable Key adjacentPageKey) { if (!mCallbackHelper.dispatchInvalidResultIfInvalid()) { if (mCallbackHelper.mResultType == PageResult.APPEND) { mDataSource.setNextKey(adjacentPageKey); } else { mDataSource.setPreviousKey(adjacentPageKey); } mCallbackHelper.dispatchResultToReceiver(new PageResult<>(data, 0, 0, 0)); } } } @Nullable @Override final Key getKey(int position, Value item) { // don't attempt to persist keys, since we currently don't pass them to initial load return null; } @Override final void dispatchLoadInitial(@Nullable Key key, int initialLoadSize, int pageSize, boolean enablePlaceholders, @NonNull Executor mainThreadExecutor, @NonNull PageResult.Receiver receiver) { LoadInitialCallbackImpl callback = new LoadInitialCallbackImpl<>(this, enablePlaceholders, receiver); loadInitial(new LoadInitialParams(initialLoadSize, enablePlaceholders), callback); // If initialLoad's callback is not called within the body, we force any following calls // to post to the UI thread. This constructor may be run on a background thread, but // after constructor, mutation must happen on UI thread. callback.mCallbackHelper.setPostExecutor(mainThreadExecutor); } @Override final void dispatchLoadAfter(int currentEndIndex, @NonNull Value currentEndItem, int pageSize, @NonNull Executor mainThreadExecutor, @NonNull PageResult.Receiver receiver) { @Nullable Key key = getNextKey(); if (key != null) { loadAfter(new LoadParams<>(key, pageSize), new LoadCallbackImpl<>(this, PageResult.APPEND, mainThreadExecutor, receiver)); } } @Override final void dispatchLoadBefore(int currentBeginIndex, @NonNull Value currentBeginItem, int pageSize, @NonNull Executor mainThreadExecutor, @NonNull PageResult.Receiver receiver) { @Nullable Key key = getPreviousKey(); if (key != null) { loadBefore(new LoadParams<>(key, pageSize), new LoadCallbackImpl<>(this, PageResult.PREPEND, mainThreadExecutor, receiver)); } } /** * Load initial data. *

* This method is called first to initialize a PagedList with data. If it's possible to count * the items that can be loaded by the DataSource, it's recommended to pass the loaded data to * the callback via the three-parameter * {@link LoadInitialCallback#onResult(List, int, int, Object, Object)}. This enables PagedLists * presenting data from this source to display placeholders to represent unloaded items. *

* {@link LoadInitialParams#requestedLoadSize} is a hint, not a requirement, so it may be may be * altered or ignored. * * @param params Parameters for initial load, including requested load size. * @param callback Callback that receives initial load data. */ public abstract void loadInitial(@NonNull LoadInitialParams params, @NonNull LoadInitialCallback callback); /** * Prepend page with the key specified by {@link LoadParams#key LoadParams.key}. *

* It's valid to return a different list size than the page size if it's easier, e.g. if your * backend defines page sizes. It is generally safer to increase the number loaded than reduce. *

* Data may be passed synchronously during the load method, or deferred and called at a * later time. Further loads going down will be blocked until the callback is called. *

* If data cannot be loaded (for example, if the request is invalid, or the data would be stale * and inconsistent, it is valid to call {@link #invalidate()} to invalidate the data source, * and prevent further loading. * * @param params Parameters for the load, including the key for the new page, and requested load * size. * @param callback Callback that receives loaded data. */ public abstract void loadBefore(@NonNull LoadParams params, @NonNull LoadCallback callback); /** * Append page with the key specified by {@link LoadParams#key LoadParams.key}. *

* It's valid to return a different list size than the page size if it's easier, e.g. if your * backend defines page sizes. It is generally safer to increase the number loaded than reduce. *

* Data may be passed synchronously during the load method, or deferred and called at a * later time. Further loads going down will be blocked until the callback is called. *

* If data cannot be loaded (for example, if the request is invalid, or the data would be stale * and inconsistent, it is valid to call {@link #invalidate()} to invalidate the data source, * and prevent further loading. * * @param params Parameters for the load, including the key for the new page, and requested load * size. * @param callback Callback that receives loaded data. */ public abstract void loadAfter(@NonNull LoadParams params, @NonNull LoadCallback callback); @NonNull @Override public final PageKeyedDataSource mapByPage( @NonNull Function, List> function) { return new WrapperPageKeyedDataSource<>(this, function); } @NonNull @Override public final PageKeyedDataSource map( @NonNull Function function) { return mapByPage(createListFunction(function)); } }





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