/* * Copyright (C) 2010 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 com.android.layoutlib.bridge.impl; import com.android.layoutlib.bridge.util.Debug; import com.android.layoutlib.bridge.util.SparseWeakArray; import android.annotation.Nullable; import android.util.SparseArray; import java.lang.ref.WeakReference; import java.util.ArrayList; import java.util.List; /** * Manages native delegates. * * This is used in conjunction with layoublib_create: certain Android java classes are mere * wrappers around a heavily native based implementation, and we need a way to run these classes * in our Eclipse rendering framework without bringing all the native code from the Android * platform. * * Thus we instruct layoutlib_create to modify the bytecode of these classes to replace their * native methods by "delegate calls". * * For example, a native method android.graphics.Matrix.init(...) will actually become * a call to android.graphics.Matrix_Delegate.init(...). * * The Android java classes that use native code uses an int (Java side) to reference native * objects. This int is generally directly the pointer to the C structure counterpart. * Typically a creation method will return such an int, and then this int will be passed later * to a Java method to identify the C object to manipulate. * * Since we cannot use the Java object reference as the int directly, DelegateManager manages the * int -> Delegate class link. * * Native methods usually always have the int as parameters. The first thing the delegate method * will do is call {@link #getDelegate(long)} to get the Java object matching the int. * * Typical native init methods are returning a new int back to the Java class, so * {@link #addNewDelegate(Object)} does the same. * * The JNI references are counted, so we do the same through a {@link WeakReference}. Because * the Java object needs to count as a reference (even though it only holds an int), we use the * following mechanism: * * - {@link #addNewDelegate(Object)} and {@link #removeJavaReferenceFor(long)} adds and removes * the delegate to/from a list. This list hold the reference and prevents the GC from reclaiming * the delegate. * * - {@link #addNewDelegate(Object)} also adds the delegate to a {@link SparseArray} that holds a * {@link WeakReference} to the delegate. This allows the delegate to be deleted automatically * when nothing references it. This means that any class that holds a delegate (except for the * Java main class) must not use the int but the Delegate class instead. The integers must * only be used in the API between the main Java class and the Delegate. * * @param the delegate class to manage */ public final class DelegateManager { @SuppressWarnings("FieldCanBeLocal") private final Class mClass; private final SparseWeakArray mDelegates = new SparseWeakArray(); /** list used to store delegates when their main object holds a reference to them. * This is to ensure that the WeakReference in the SparseWeakArray doesn't get GC'ed * @see #addNewDelegate(Object) * @see #removeJavaReferenceFor(long) */ private final List mJavaReferences = new ArrayList(); private int mDelegateCounter = 0; public DelegateManager(Class theClass) { mClass = theClass; } /** * Returns the delegate from the given native int. *

* If the int is zero, then this will always return null. *

* If the int is non zero and the delegate is not found, this will throw an assert. * * @param native_object the native int. * @return the delegate or null if not found. */ @Nullable public synchronized T getDelegate(long native_object) { if (native_object > 0) { T delegate = mDelegates.get(native_object); if (Debug.DEBUG) { if (delegate == null) { System.err.println("Unknown " + mClass.getSimpleName() + " with int " + native_object); } } assert delegate != null; return delegate; } return null; } /** * Adds a delegate to the manager and returns the native int used to identify it. * @param newDelegate the delegate to add * @return a unique native int to identify the delegate */ public synchronized long addNewDelegate(T newDelegate) { long native_object = ++mDelegateCounter; mDelegates.put(native_object, newDelegate); assert !mJavaReferences.contains(newDelegate); mJavaReferences.add(newDelegate); if (Debug.DEBUG) { System.out.println( "New " + mClass.getSimpleName() + " " + "with int " + native_object); } return native_object; } /** * Removes the main reference on the given delegate. * @param native_object the native integer representing the delegate. */ public synchronized void removeJavaReferenceFor(long native_object) { T delegate = getDelegate(native_object); if (Debug.DEBUG) { System.out.println("Removing main Java ref on " + mClass.getSimpleName() + " with int " + native_object); } mJavaReferences.remove(delegate); } }