/* * Copyright 2006 Amazon Technologies, Inc. or its affiliates. * Amazon, Amazon.com and Carbonado are trademarks or registered trademarks * of Amazon Technologies, Inc. or its affiliates. All rights reserved. * * 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.amazon.carbonado.util; /** * General purpose class for throttling work relative to its actual measured * performance. To throttle a task, call the throttle method each time a unit * of work has been performed. It computes a rolling average for the amount of * time it takes to perform some work, and then it sleeps a calculated amount * of time to throttle back. * *

Instances are intended for use by one thread, and so they are not * thread-safe. * * @author Brian S O'Neill */ public class Throttle { private final double[] mWorkTimeSamples; // Next index in mSamples to use. private int mSampleIndex; private double mWorkTimeSum; // Amount of samples gathered. private int mSampleCount; private long mLastTimestampNanos; private double mSleepRequiredNanos; /** * @param windowSize amount of samples to keep in the rolling average */ public Throttle(int windowSize) { if (windowSize < 1) { throw new IllegalArgumentException(); } mWorkTimeSamples = new double[windowSize]; } /** * @param desiredSpeed 1.0 = perform work at full speed, * 0.5 = perform work at half speed, 0.0 = fully suspend work * @param sleepPrecisionMillis sleep precision, in milliseconds. Typical * value is 10 to 100 milliseconds. */ public void throttle(double desiredSpeed, long sleepPrecisionMillis) throws InterruptedException { long timestampNanos = System.nanoTime(); int sampleCount = mSampleCount; int index = mSampleIndex; double workTime = timestampNanos - mLastTimestampNanos; double workTimeSum = mWorkTimeSum + workTime; double[] workTimeSamples = mWorkTimeSamples; if (sampleCount >= workTimeSamples.length) { workTimeSum -= workTimeSamples[index]; double average = workTimeSum / sampleCount; double sleepTimeNanos = (average / desiredSpeed) - average; double sleepRequiredNanos = mSleepRequiredNanos + sleepTimeNanos; if (sleepRequiredNanos > 0.0) { double sleepRequiredMillis = sleepRequiredNanos * (1.0 / 1000000); long millis; if (sleepRequiredMillis > Long.MAX_VALUE) { millis = Long.MAX_VALUE; } else { millis = Math.max(sleepPrecisionMillis, (long) sleepRequiredMillis); } Thread.sleep(millis); long nextNanos = System.nanoTime(); // Subtract off time spent in this method, including sleep. sleepRequiredNanos -= (nextNanos - timestampNanos); timestampNanos = nextNanos; } mSleepRequiredNanos = sleepRequiredNanos; } workTimeSamples[index] = workTime; index++; if (index >= workTimeSamples.length) { index = 0; } mSampleIndex = index; mWorkTimeSum = workTimeSum; if (sampleCount < workTimeSamples.length) { mSampleCount = sampleCount + 1; } mLastTimestampNanos = timestampNanos; } /** * Test program which exercises the CPU in an infinite loop, throttled by * the amount given in args[0]. On a machine performing no other work, the * average CPU load should be about the same as the throttled speed. * * @param args args[0] - desired speed, 0.0 to 1.0 */ public static void main(String[] args) throws Exception { Throttle t = new Throttle(50); double desiredSpeed = Double.parseDouble(args[0]); while (true) { new java.util.Date().toString(); t.throttle(desiredSpeed, 100); } } }