/* * Copyright (C) 2014 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.databinding; import java.util.ArrayList; import java.util.List; /** * A utility for storing and notifying callbacks. This class supports reentrant modification * of the callbacks during notification without adversely disrupting notifications. * A common pattern for callbacks is to receive a notification and then remove * themselves. This class handles this behavior with constant memory under * most circumstances. * *
A subclass of {@link CallbackRegistry.NotifierCallback} must be passed to * the constructor to define how notifications should be called. That implementation * does the actual notification on the listener. It is typically a static instance * that can be reused for all similar CallbackRegistries.
* *This class supports only callbacks with at most three parameters.
* Typically, these are the notification originator and a parameter, with another to
* indicate which method to call, but these may be used as required. If more than
* three parameters are required or primitive types other than the single int provided
* must be used, A
should be some kind of containing structure that
* the subclass may reuse between notifications.
removed
.
*
* @param sender The originator. This is an opaque parameter passed to
* {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)}
* @param arg An opaque parameter passed to
* {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)}
* @param arg2 An opaque parameter passed to
* {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)}
*/
private void notifyFirst64(T sender, int arg, A arg2) {
final int maxNotified = Math.min(Long.SIZE, mCallbacks.size());
notifyCallbacks(sender, arg, arg2, 0, maxNotified, mFirst64Removed);
}
/**
* Notify all callbacks using a recursive algorithm to avoid allocating on the heap.
* This part captures the callbacks beyond Long.SIZE that have no bits allocated for
* removal before it recurses into {@link #notifyRemainder(Object, int, A, int)}.
*
* Recursion is used to avoid allocating temporary state on the heap.
* * @param sender The originator. This is an opaque parameter passed to * {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)} * @param arg An opaque parameter passed to * {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)} * @param arg2 An opaque parameter passed to * {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)} */ private void notifyRecurse(T sender, int arg, A arg2) { final int callbackCount = mCallbacks.size(); final int remainderIndex = mRemainderRemoved == null ? -1 : mRemainderRemoved.length - 1; // Now we've got all callbakcs that have no mRemainderRemoved value, so notify the // others. notifyRemainder(sender, arg, arg2, remainderIndex); // notifyRemainder notifies all at maxIndex, so we'd normally start at maxIndex + 1 // However, we must also keep track of those in mFirst64Removed, so we add 2 instead: final int startCallbackIndex = (remainderIndex + 2) * Long.SIZE; // The remaining have no bit set notifyCallbacks(sender, arg, arg2, startCallbackIndex, callbackCount, 0); } /** * Notify callbacks that have mRemainderRemoved bits set for remainderIndex. If * remainderIndex is -1, the first 64 will be notified instead. * * @param sender The originator. This is an opaque parameter passed to * {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)} * @param arg An opaque parameter passed to * {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)} * @param arg2 An opaque parameter passed to * {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)} * @param remainderIndex The index into mRemainderRemoved that should be notified. */ private void notifyRemainder(T sender, int arg, A arg2, int remainderIndex) { if (remainderIndex < 0) { notifyFirst64(sender, arg, arg2); } else { final long bits = mRemainderRemoved[remainderIndex]; final int startIndex = (remainderIndex + 1) * Long.SIZE; final int endIndex = Math.min(mCallbacks.size(), startIndex + Long.SIZE); notifyRemainder(sender, arg, arg2, remainderIndex - 1); notifyCallbacks(sender, arg, arg2, startIndex, endIndex, bits); } } /** * Notify callbacks from startIndex to endIndex, using bits as the bit status * for whether they have been removed or not. bits should be from mRemainderRemoved or * mFirst64Removed. bits set to 0 indicates that all callbacks from startIndex to * endIndex should be notified. * * @param sender The originator. This is an opaque parameter passed to * {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)} * @param arg An opaque parameter passed to * {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)} * @param arg2 An opaque parameter passed to * {@link CallbackRegistry.NotifierCallback#onNotifyCallback(Object, Object, int, Object)} * @param startIndex The index into the mCallbacks to start notifying. * @param endIndex One past the last index into mCallbacks to notify. * @param bits A bit field indicating which callbacks have been removed and shouldn't * be notified. */ private void notifyCallbacks(T sender, int arg, A arg2, final int startIndex, final int endIndex, final long bits) { long bitMask = 1; for (int i = startIndex; i < endIndex; i++) { if ((bits & bitMask) == 0) { mNotifier.onNotifyCallback(mCallbacks.get(i), sender, arg, arg2); } bitMask <<= 1; } } /** * Add a callback to be notified. If the callback is already in the list, another won't * be added. This does not affect current notifications. * @param callback The callback to add. */ public synchronized void add(C callback) { int index = mCallbacks.lastIndexOf(callback); if (index < 0 || isRemoved(index)) { mCallbacks.add(callback); } } /** * Returns true if the callback at index has been marked for removal. * * @param index The index into mCallbacks to check. * @return true if the callback at index has been marked for removal. */ private boolean isRemoved(int index) { if (index < Long.SIZE) { // It is in the first 64 callbacks, just check the bit. final long bitMask = 1L << index; return (mFirst64Removed & bitMask) != 0; } else if (mRemainderRemoved == null) { // It is after the first 64 callbacks, but nothing else was marked for removal. return false; } else { final int maskIndex = (index / Long.SIZE) - 1; if (maskIndex >= mRemainderRemoved.length) { // There are some items in mRemainderRemoved, but nothing at the given index. return false; } else { // There is something marked for removal, so we have to check the bit. final long bits = mRemainderRemoved[maskIndex]; final long bitMask = 1L << (index % Long.SIZE); return (bits & bitMask) != 0; } } } /** * Removes callbacks from startIndex to startIndex + Long.SIZE, based * on the bits set in removed. * * @param startIndex The index into the mCallbacks to start removing callbacks. * @param removed The bits indicating removal, where each bit is set for one callback * to be removed. */ private void removeRemovedCallbacks(int startIndex, long removed) { // The naive approach should be fine. There may be a better bit-twiddling approach. final int endIndex = startIndex + Long.SIZE; long bitMask = 1L << (Long.SIZE - 1); for (int i = endIndex - 1; i >= startIndex; i--) { if ((removed & bitMask) != 0) { mCallbacks.remove(i); } bitMask >>>= 1; } } /** * Remove a callback. This callback won't be notified after this call completes. * * @param callback The callback to remove. */ public synchronized void remove(C callback) { if (mNotificationLevel == 0) { mCallbacks.remove(callback); } else { int index = mCallbacks.lastIndexOf(callback); if (index >= 0) { setRemovalBit(index); } } } private void setRemovalBit(int index) { if (index < Long.SIZE) { // It is in the first 64 callbacks, just check the bit. final long bitMask = 1L << index; mFirst64Removed |= bitMask; } else { final int remainderIndex = (index / Long.SIZE) - 1; if (mRemainderRemoved == null) { mRemainderRemoved = new long[mCallbacks.size() / Long.SIZE]; } else if (mRemainderRemoved.length < remainderIndex) { // need to make it bigger long[] newRemainders = new long[mCallbacks.size() / Long.SIZE]; System.arraycopy(mRemainderRemoved, 0, newRemainders, 0, mRemainderRemoved.length); mRemainderRemoved = newRemainders; } final long bitMask = 1L << (index % Long.SIZE); mRemainderRemoved[remainderIndex] |= bitMask; } } /** * Makes a copy of the registered callbacks and returns it. * * @return a copy of the registered callbacks. */ public synchronized ArrayListcallbacks
to contain all callbacks in the CallbackRegistry.
*
* @param callbacks modified to contain all callbacks registered to receive events.
*/
public synchronized void copyCallbacks(List