Java tutorial
/** * Licensed to the Apache Software Foundation (ASF) under one or more contributor license agreements. See the NOTICE * file distributed with this work for additional information regarding copyright ownership. The ASF licenses this file * to you 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 * <p> * http://www.apache.org/licenses/LICENSE-2.0 * <p> * 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.buaa.cfs.utils; import com.buaa.cfs.conf.Configurable; import com.buaa.cfs.conf.Configuration; import com.buaa.cfs.io.DataInputBuffer; import com.buaa.cfs.io.DataOutputBuffer; import com.buaa.cfs.io.Writable; import com.buaa.cfs.io.serializer.Deserializer; import com.buaa.cfs.io.serializer.SerializationFactory; import com.buaa.cfs.io.serializer.Serializer; import org.apache.commons.logging.Log; import java.io.ByteArrayOutputStream; import java.io.IOException; import java.io.PrintStream; import java.io.UnsupportedEncodingException; import java.lang.management.ManagementFactory; import java.lang.management.ThreadInfo; import java.lang.management.ThreadMXBean; import java.lang.reflect.Constructor; import java.lang.reflect.Field; import java.lang.reflect.Method; import java.nio.charset.Charset; import java.util.ArrayList; import java.util.List; import java.util.Map; import java.util.concurrent.ConcurrentHashMap; /** * General reflection utils */ public class ReflectionUtils { private static final Class<?>[] EMPTY_ARRAY = new Class[] {}; volatile private static SerializationFactory serialFactory = null; /** * Cache of constructors for each class. Pins the classes so they can't be garbage collected until ReflectionUtils * can be collected. */ private static final Map<Class<?>, Constructor<?>> CONSTRUCTOR_CACHE = new ConcurrentHashMap<Class<?>, Constructor<?>>(); /** * Check and set 'configuration' if necessary. * * @param theObject object for which to set configuration * @param conf Configuration */ public static void setConf(Object theObject, Configuration conf) { if (conf != null) { if (theObject instanceof Configurable) { ((Configurable) theObject).setConf(conf); } setJobConf(theObject, conf); } } /** * This code is to support backward compatibility and break the compile time dependency of core on mapred. This * should be made deprecated along with the mapred package HADOOP-1230. Should be removed when mapred package is * removed. */ private static void setJobConf(Object theObject, Configuration conf) { //If JobConf and JobConfigurable are in classpath, AND //theObject is of type JobConfigurable AND //conf is of type JobConf then //invoke configure on theObject try { Class<?> jobConfClass = conf.getClassByNameOrNull("org.apache.hadoop.mapred.JobConf"); if (jobConfClass == null) { return; } Class<?> jobConfigurableClass = conf.getClassByNameOrNull("org.apache.hadoop.mapred.JobConfigurable"); if (jobConfigurableClass == null) { return; } if (jobConfClass.isAssignableFrom(conf.getClass()) && jobConfigurableClass.isAssignableFrom(theObject.getClass())) { Method configureMethod = jobConfigurableClass.getMethod("configure", jobConfClass); configureMethod.invoke(theObject, conf); } } catch (Exception e) { throw new RuntimeException("Error in configuring object", e); } } /** * Create an object for the given class and initialize it from conf * * @param theClass class of which an object is created * @param conf Configuration * * @return a new object */ @SuppressWarnings("unchecked") public static <T> T newInstance(Class<T> theClass, Configuration conf) { T result; try { Constructor<T> meth = (Constructor<T>) CONSTRUCTOR_CACHE.get(theClass); if (meth == null) { meth = theClass.getDeclaredConstructor(EMPTY_ARRAY); meth.setAccessible(true); CONSTRUCTOR_CACHE.put(theClass, meth); } result = meth.newInstance(); } catch (Exception e) { throw new RuntimeException(e); } setConf(result, conf); return result; } static private ThreadMXBean threadBean = ManagementFactory.getThreadMXBean(); public static void setContentionTracing(boolean val) { threadBean.setThreadContentionMonitoringEnabled(val); } private static String getTaskName(long id, String name) { if (name == null) { return Long.toString(id); } return id + " (" + name + ")"; } /** * Print all of the thread's information and stack traces. * * @param stream the stream to * @param title a string title for the stack trace */ public synchronized static void printThreadInfo(PrintStream stream, String title) { final int STACK_DEPTH = 20; boolean contention = threadBean.isThreadContentionMonitoringEnabled(); long[] threadIds = threadBean.getAllThreadIds(); stream.println("Process Thread Dump: " + title); stream.println(threadIds.length + " active threads"); for (long tid : threadIds) { ThreadInfo info = threadBean.getThreadInfo(tid, STACK_DEPTH); if (info == null) { stream.println(" Inactive"); continue; } stream.println("Thread " + getTaskName(info.getThreadId(), info.getThreadName()) + ":"); Thread.State state = info.getThreadState(); stream.println(" State: " + state); stream.println(" Blocked count: " + info.getBlockedCount()); stream.println(" Waited count: " + info.getWaitedCount()); if (contention) { stream.println(" Blocked time: " + info.getBlockedTime()); stream.println(" Waited time: " + info.getWaitedTime()); } if (state == Thread.State.WAITING) { stream.println(" Waiting on " + info.getLockName()); } else if (state == Thread.State.BLOCKED) { stream.println(" Blocked on " + info.getLockName()); stream.println(" Blocked by " + getTaskName(info.getLockOwnerId(), info.getLockOwnerName())); } stream.println(" Stack:"); for (StackTraceElement frame : info.getStackTrace()) { stream.println(" " + frame.toString()); } } stream.flush(); } private static long previousLogTime = 0; /** * Log the current thread stacks at INFO level. * * @param log the logger that logs the stack trace * @param title a descriptive title for the call stacks * @param minInterval the minimum time from the last */ public static void logThreadInfo(Log log, String title, long minInterval) { boolean dumpStack = false; if (log.isInfoEnabled()) { synchronized (ReflectionUtils.class) { long now = Time.now(); if (now - previousLogTime >= minInterval * 1000) { previousLogTime = now; dumpStack = true; } } if (dumpStack) { try { ByteArrayOutputStream buffer = new ByteArrayOutputStream(); printThreadInfo(new PrintStream(buffer, false, "UTF-8"), title); log.info(buffer.toString(Charset.defaultCharset().name())); } catch (UnsupportedEncodingException ignored) { } } } } /** * Return the correctly-typed {@link Class} of the given object. * * @param o object whose correctly-typed <code>Class</code> is to be obtained * * @return the correctly typed <code>Class</code> of the given object. */ @SuppressWarnings("unchecked") public static <T> Class<T> getClass(T o) { return (Class<T>) o.getClass(); } // methods to support testing static void clearCache() { CONSTRUCTOR_CACHE.clear(); } static int getCacheSize() { return CONSTRUCTOR_CACHE.size(); } /** * A pair of input/output buffers that we use to clone writables. */ private static class CopyInCopyOutBuffer { DataOutputBuffer outBuffer = new DataOutputBuffer(); DataInputBuffer inBuffer = new DataInputBuffer(); /** * Move the data from the output buffer to the input buffer. */ void moveData() { inBuffer.reset(outBuffer.getData(), outBuffer.getLength()); } } /** * Allocate a buffer for each thread that tries to clone objects. */ private static ThreadLocal<CopyInCopyOutBuffer> cloneBuffers = new ThreadLocal<CopyInCopyOutBuffer>() { @Override protected synchronized CopyInCopyOutBuffer initialValue() { return new CopyInCopyOutBuffer(); } }; private static SerializationFactory getFactory(Configuration conf) { if (serialFactory == null) { serialFactory = new SerializationFactory(conf); } return serialFactory; } /** * Make a copy of the writable object using serialization to a buffer * * @param src the object to copy from * @param dst the object to copy into, which is destroyed * * @return dst param (the copy) * * @throws IOException */ @SuppressWarnings("unchecked") public static <T> T copy(Configuration conf, T src, T dst) throws IOException { CopyInCopyOutBuffer buffer = cloneBuffers.get(); buffer.outBuffer.reset(); SerializationFactory factory = getFactory(conf); Class<T> cls = (Class<T>) src.getClass(); Serializer<T> serializer = factory.getSerializer(cls); serializer.open(buffer.outBuffer); serializer.serialize(src); buffer.moveData(); Deserializer<T> deserializer = factory.getDeserializer(cls); deserializer.open(buffer.inBuffer); dst = deserializer.deserialize(dst); return dst; } @Deprecated public static void cloneWritableInto(Writable dst, Writable src) throws IOException { CopyInCopyOutBuffer buffer = cloneBuffers.get(); buffer.outBuffer.reset(); src.write(buffer.outBuffer); buffer.moveData(); dst.readFields(buffer.inBuffer); } /** * Gets all the declared fields of a class including fields declared in superclasses. */ public static List<Field> getDeclaredFieldsIncludingInherited(Class<?> clazz) { List<Field> fields = new ArrayList<Field>(); while (clazz != null) { for (Field field : clazz.getDeclaredFields()) { fields.add(field); } clazz = clazz.getSuperclass(); } return fields; } /** * Gets all the declared methods of a class including methods declared in superclasses. */ public static List<Method> getDeclaredMethodsIncludingInherited(Class<?> clazz) { List<Method> methods = new ArrayList<Method>(); while (clazz != null) { for (Method method : clazz.getDeclaredMethods()) { methods.add(method); } clazz = clazz.getSuperclass(); } return methods; } }