Android线程调用栈大小如何调整?很多新手对此不是很清楚,为了帮助大家解决这个难题,下面小编将为大家详细讲解,有这方面需求的人可以来学习下,希望你能有所收获。
在常规的Android开发过程中,随着业务逻辑越来越复杂,调用栈可能会越来越深,难免会遇到调用栈越界的情况,这种情况下,就需要调整线程栈的大小。
当然,主要还是增大线程栈大小,尤其是存在jni调用的情况下,C++层的栈开销有时候是非常恐怖的,比如说递归调用。
这就需要分三种情况,主线程,自定义线程池,AsyncTask。
主线程的线程栈是没有办法进行修改的,这个没办法处理。
针对线程池的情况,需要在创建线程的时候,调用构造函数
public Thread(@RecentlyNullable ThreadGroup group, @RecentlyNullable Runnable target, @RecentlyNonNull String name, long stackSize)
通过设置stackSize
参数来解决问题。
参考代码如下:
import android.support.annotation.NonNull; import android.util.Log; import java.util.concurrent.ThreadFactory; /** * A ThreadFactory implementation which create new threads for the thread pool. */ public class SimpleThreadFactory implements ThreadFactory { private static final String TAG = "SimpleThreadFactory"; private final static ThreadGroup group = new ThreadGroup("SimpleThreadFactoryGroup"); // 工作线程堆栈大小调整为2MB private final static int workerStackSize = 2 * 1024 * 1024; @Override public Thread newThread(@NonNull final Runnable runnable) { final Thread thread = new Thread(group, runnable, "PoolWorkerThread", workerStackSize); // A exception handler is created to log the exception from threads thread.setUncaughtExceptionHandler(new Thread.UncaughtExceptionHandler() { @Override public void uncaughtException(@NonNull Thread thread, @NonNull Throwable ex) { Log.e(TAG, thread.getName() + " encountered an error: " + ex.getMessage()); } }); return thread; } }
import android.support.annotation.AnyThread; import android.support.annotation.NonNull; import android.support.annotation.Nullable; import android.util.Log; import java.util.concurrent.BlockingQueue; import java.util.concurrent.Callable; import java.util.concurrent.ExecutorService; import java.util.concurrent.Future; import java.util.concurrent.LinkedBlockingQueue; import java.util.concurrent.ThreadPoolExecutor; import java.util.concurrent.TimeUnit; /** * A Singleton thread pool */ public class ThreadPool { private static final String TAG = "ThreadPool"; private static final int KEEP_ALIVE_TIME = 1; private static volatile ThreadPool sInstance = null; private static int NUMBER_OF_CORES = Runtime.getRuntime().availableProcessors(); private final ExecutorService mExecutor; private final BlockingQueue<Runnable> mTaskQueue; // Made constructor private to avoid the class being initiated from outside private ThreadPool() { // initialize a queue for the thread pool. New tasks will be added to this queue mTaskQueue = new LinkedBlockingQueue<>(); Log.d(TAG, "Available cores: " + NUMBER_OF_CORES); mExecutor = new ThreadPoolExecutor(NUMBER_OF_CORES, NUMBER_OF_CORES * 2, KEEP_ALIVE_TIME, TimeUnit.SECONDS, mTaskQueue, new SimpleThreadFactory()); } @NonNull @AnyThread public static ThreadPool getInstance() { if (null == sInstance) { synchronized (ThreadPool.class) { if (null == sInstance) { sInstance = new ThreadPool(); } } } return sInstance; } private boolean isThreadPoolAlive() { return (null != mExecutor) && !mExecutor.isTerminated() && !mExecutor.isShutdown(); } @Nullable @AnyThread public <T> Future<T> submitCallable(@NonNull final Callable<T> c) { synchronized (this) { if (isThreadPoolAlive()) { return mExecutor.submit(c); } } return null; } @Nullable @AnyThread public Future<?> submitRunnable(@NonNull final Runnable r) { synchronized (this) { if (isThreadPoolAlive()) { return mExecutor.submit(r); } } return null; } /* Remove all tasks in the queue and stop all running threads */ @AnyThread public void shutdownNow() { synchronized (this) { mTaskQueue.clear(); if ((!mExecutor.isShutdown()) && (!mExecutor.isTerminated())) { mExecutor.shutdownNow(); } } } }
针对AsyncTask的情况,一般是通过调用
public final AsyncTask<Params, Progress, Result> executeOnExecutor(Executor exec, Params... params)
指定线程池来运行,在特定的线程池中调整线程栈的大小。
参考代码如下:
import android.os.AsyncTask; import android.support.annotation.AnyThread; import android.support.annotation.NonNull; import android.util.Log; import java.util.concurrent.BlockingQueue; import java.util.concurrent.ExecutorService; import java.util.concurrent.LinkedBlockingQueue; import java.util.concurrent.ThreadPoolExecutor; import java.util.concurrent.TimeUnit; public abstract class AsyncTaskEx<Params, Progress, Result> extends AsyncTask<Params, Progress, Result> { private static final String TAG = "AsyncTaskEx"; private static final int KEEP_ALIVE_TIME = 1; private static volatile ThreadPool sInstance = null; private static int NUMBER_OF_CORES = Runtime.getRuntime().availableProcessors(); private final ExecutorService mExecutor; private final BlockingQueue<Runnable> mTaskQueue; public AsyncTaskEx() { // initialize a queue for the thread pool. New tasks will be added to this queue mTaskQueue = new LinkedBlockingQueue<>(); Log.d(TAG, "Available cores: " + NUMBER_OF_CORES); mExecutor = new ThreadPoolExecutor(NUMBER_OF_CORES, NUMBER_OF_CORES * 2, KEEP_ALIVE_TIME, TimeUnit.SECONDS, mTaskQueue, new SimpleThreadFactory()); } public AsyncTask<Params, Progress, Result> executeAsync(@NonNull final Params... params) { return super.executeOnExecutor(mExecutor, params); } /* Remove all tasks in the queue and stop all running threads */ @AnyThread public void shutdownNow() { synchronized (this) { mTaskQueue.clear(); if ((!mExecutor.isShutdown()) && (!mExecutor.isTerminated())) { mExecutor.shutdownNow(); } } } }
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