All Downloads are FREE. Search and download functionalities are using the official Maven repository.

com.google.firebase.database.core.WriteTreeRef Maven / Gradle / Ivy

Go to download

This is the official Firebase Admin Java SDK. Build extraordinary native JVM apps in minutes with Firebase. The Firebase platform can power your app’s backend, user authentication, static hosting, and more.

There is a newer version: 9.4.1
Show newest version
/*
 * Copyright 2017 Google Inc.
 *
 * 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 com.google.firebase.database.core;

import com.google.firebase.database.core.view.CacheNode;
import com.google.firebase.database.snapshot.ChildKey;
import com.google.firebase.database.snapshot.Index;
import com.google.firebase.database.snapshot.NamedNode;
import com.google.firebase.database.snapshot.Node;

import java.util.Collections;
import java.util.List;

/**
 * A WriteTreeRef wraps a WriteTree and a path, for convenient access to a particular subtree. All
 * of the methods just proxy to the underlying WriteTree.
 */
public class WriteTreeRef {

  /**
   * The path to this particular write tree ref. Used for calling methods on writeTree_ while
   * exposing a simpler interface to callers.
   */
  private final Path treePath;

  /**
   * A reference to the actual tree of write data. All methods are pass-through to the tree, but
   * with the appropriate path prefixed.
   *
   * 

This lets us make cheap references to points in the tree for sync points without having to * copy and maintain all of the data. */ private final WriteTree writeTree; public WriteTreeRef(Path path, WriteTree writeTree) { this.treePath = path; this.writeTree = writeTree; } /** * If possible, returns a complete event cache, using the underlying server data if possible. In * addition, can be used to get a cache that includes hidden writes, and excludes arbitrary * writes. Note that customizing the returned node can lead to a more expensive calculation. */ public Node calcCompleteEventCache(Node completeServerCache) { return this.calcCompleteEventCache(completeServerCache, Collections.emptyList()); } public Node calcCompleteEventCache(Node completeServerCache, List writeIdsToExclude) { return this.calcCompleteEventCache(completeServerCache, writeIdsToExclude, false); } public Node calcCompleteEventCache( Node completeServerCache, List writeIdsToExclude, boolean includeHiddenWrites) { return this.writeTree.calcCompleteEventCache( this.treePath, completeServerCache, writeIdsToExclude, includeHiddenWrites); } /** * If possible, returns a children node containing all of the complete children we have data for. * The returned data is a mix of the given server data and write data. */ public Node calcCompleteEventChildren(Node completeServerChildren) { return this.writeTree.calcCompleteEventChildren(this.treePath, completeServerChildren); } /** * Given that either the underlying server data has updated or the outstanding writes have * updated, determine what, if anything, needs to be applied to the event cache. * *

Possibilities: * *

1. No writes are shadowing. Events should be raised, the snap to be applied comes from the * server data * *

2. Some write is completely shadowing. No events to be raised * *

3. Is partially shadowed. Events should be raised * *

Either existingEventSnap or existingServerSnap must exist, this is validated via an assert */ public Node calcEventCacheAfterServerOverwrite( Path path, Node existingEventSnap, Node existingServerSnap) { return this.writeTree.calcEventCacheAfterServerOverwrite( this.treePath, path, existingEventSnap, existingServerSnap); } /** * Returns a node if there is a complete overwrite for this path. More specifically, if there is a * write at a higher path, this will return the child of that write relative to the write and this * path. Returns null if there is no write at this path. */ public Node shadowingWrite(Path path) { return this.writeTree.shadowingWrite(this.treePath.child(path)); } /** * This method is used when processing child remove events on a query. If we can, we pull in * children that were outside the window, but may now be in the window */ public NamedNode calcNextNodeAfterPost( Node completeServerData, NamedNode startPost, boolean reverse, Index index) { return this.writeTree.calcNextNodeAfterPost( this.treePath, completeServerData, startPost, reverse, index); } /** * Returns a complete child for a given server snap after applying all user writes or null if * there is no complete child for this ChildKey. */ public Node calcCompleteChild(ChildKey childKey, CacheNode existingServerCache) { return this.writeTree.calcCompleteChild(this.treePath, childKey, existingServerCache); } /** Return a WriteTreeRef for a child. */ public WriteTreeRef child(ChildKey childKey) { return new WriteTreeRef(this.treePath.child(childKey), this.writeTree); } }





© 2015 - 2024 Weber Informatics LLC | Privacy Policy