jsr166-tests/src/test/java/jsr166/DoubleAccumulatorTest.java - platform/libcore.git - Git at Google

 /*
  * Written by Doug Lea with assistance from members of JCP JSR-166
  * Expert Group and released to the public domain, as explained at
  * http://creativecommons.org/publicdomain/zero/1.0/
  */

 package jsr166;

 import java.util.concurrent.Executors;
 import java.util.concurrent.ExecutorService;
 import java.util.concurrent.Phaser;
 import java.util.concurrent.atomic.DoubleAccumulator;

 import junit.framework.Test;
 import junit.framework.TestSuite;

 public class DoubleAccumulatorTest extends JSR166TestCase {
     // android-note: Removed because the CTS runner does a bad job of
     // retrying tests that have suite() declarations.
     //
     // public static void main(String[] args) {
     //     main(suite(), args);
     // }
     // public static Test suite() {
     //     return new TestSuite(DoubleAccumulatorTest.class);
     // }

     /**
      * default constructed initializes to zero
      */
     public void testConstructor() {
         DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
         assertEquals(0.0, ai.get());
     }

     /**
      * accumulate accumulates given value to current, and get returns current value
      */
     public void testAccumulateAndGet() {
         DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
         ai.accumulate(2.0);
         assertEquals(2.0, ai.get());
         ai.accumulate(-4.0);
         assertEquals(2.0, ai.get());
         ai.accumulate(4.0);
         assertEquals(4.0, ai.get());
     }

     /**
      * reset() causes subsequent get() to return zero
      */
     public void testReset() {
         DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
         ai.accumulate(2.0);
         assertEquals(2.0, ai.get());
         ai.reset();
         assertEquals(0.0, ai.get());
     }

     /**
      * getThenReset() returns current value; subsequent get() returns zero
      */
     public void testGetThenReset() {
         DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
         ai.accumulate(2.0);
         assertEquals(2.0, ai.get());
         assertEquals(2.0, ai.getThenReset());
         assertEquals(0.0, ai.get());
     }

     /**
      * toString returns current value.
      */
     public void testToString() {
         DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
         assertEquals("0.0", ai.toString());
         ai.accumulate(1.0);
         assertEquals(Double.toString(1.0), ai.toString());
     }

     /**
      * intValue returns current value.
      */
     public void testIntValue() {
         DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
         assertEquals(0, ai.intValue());
         ai.accumulate(1.0);
         assertEquals(1, ai.intValue());
     }

     /**
      * longValue returns current value.
      */
     public void testLongValue() {
         DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
         assertEquals(0, ai.longValue());
         ai.accumulate(1.0);
         assertEquals(1, ai.longValue());
     }

     /**
      * floatValue returns current value.
      */
     public void testFloatValue() {
         DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
         assertEquals(0.0f, ai.floatValue());
         ai.accumulate(1.0);
         assertEquals(1.0f, ai.floatValue());
     }

     /**
      * doubleValue returns current value.
      */
     public void testDoubleValue() {
         DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
         assertEquals(0.0, ai.doubleValue());
         ai.accumulate(1.0);
         assertEquals(1.0, ai.doubleValue());
     }

     /**
      * accumulates by multiple threads produce correct result
      */
     public void testAccumulateAndGetMT() {
         final int incs = 1000000;
         final int nthreads = 4;
         final ExecutorService pool = Executors.newCachedThreadPool();
         DoubleAccumulator a = new DoubleAccumulator(Double::max, 0.0);
         Phaser phaser = new Phaser(nthreads + 1);
         for (int i = 0; i < nthreads; ++i)
             pool.execute(new AccTask(a, phaser, incs));
         phaser.arriveAndAwaitAdvance();
         phaser.arriveAndAwaitAdvance();
         double expected = incs - 1;
         double result = a.get();
         assertEquals(expected, result);
         pool.shutdown();
     }

     static final class AccTask implements Runnable {
         final DoubleAccumulator acc;
         final Phaser phaser;
         final int incs;
         volatile double result;
         AccTask(DoubleAccumulator acc, Phaser phaser, int incs) {
             this.acc = acc;
             this.phaser = phaser;
             this.incs = incs;
         }

         public void run() {
             phaser.arriveAndAwaitAdvance();
             DoubleAccumulator a = acc;
             for (int i = 0; i < incs; ++i)
                 a.accumulate(i);
             result = a.get();
             phaser.arrive();
         }
     }

 }
	/*
	* Written by Doug Lea with assistance from members of JCP JSR-166
	* Expert Group and released to the public domain, as explained at
	* http://creativecommons.org/publicdomain/zero/1.0/
	*/

	package jsr166;

	import java.util.concurrent.Executors;
	import java.util.concurrent.ExecutorService;
	import java.util.concurrent.Phaser;
	import java.util.concurrent.atomic.DoubleAccumulator;

	import junit.framework.Test;
	import junit.framework.TestSuite;

	public class DoubleAccumulatorTest extends JSR166TestCase {
	// android-note: Removed because the CTS runner does a bad job of
	// retrying tests that have suite() declarations.
	//
	// public static void main(String[] args) {
	// main(suite(), args);
	// }
	// public static Test suite() {
	// return new TestSuite(DoubleAccumulatorTest.class);
	// }

	/**
	* default constructed initializes to zero
	*/
	public void testConstructor() {
	DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
	assertEquals(0.0, ai.get());
	}

	/**
	* accumulate accumulates given value to current, and get returns current value
	*/
	public void testAccumulateAndGet() {
	DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
	ai.accumulate(2.0);
	assertEquals(2.0, ai.get());
	ai.accumulate(-4.0);
	assertEquals(2.0, ai.get());
	ai.accumulate(4.0);
	assertEquals(4.0, ai.get());
	}

	/**
	* reset() causes subsequent get() to return zero
	*/
	public void testReset() {
	DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
	ai.accumulate(2.0);
	assertEquals(2.0, ai.get());
	ai.reset();
	assertEquals(0.0, ai.get());
	}

	/**
	* getThenReset() returns current value; subsequent get() returns zero
	*/
	public void testGetThenReset() {
	DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
	ai.accumulate(2.0);
	assertEquals(2.0, ai.get());
	assertEquals(2.0, ai.getThenReset());
	assertEquals(0.0, ai.get());
	}

	/**
	* toString returns current value.
	*/
	public void testToString() {
	DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
	assertEquals("0.0", ai.toString());
	ai.accumulate(1.0);
	assertEquals(Double.toString(1.0), ai.toString());
	}

	/**
	* intValue returns current value.
	*/
	public void testIntValue() {
	DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
	assertEquals(0, ai.intValue());
	ai.accumulate(1.0);
	assertEquals(1, ai.intValue());
	}

	/**
	* longValue returns current value.
	*/
	public void testLongValue() {
	DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
	assertEquals(0, ai.longValue());
	ai.accumulate(1.0);
	assertEquals(1, ai.longValue());
	}

	/**
	* floatValue returns current value.
	*/
	public void testFloatValue() {
	DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
	assertEquals(0.0f, ai.floatValue());
	ai.accumulate(1.0);
	assertEquals(1.0f, ai.floatValue());
	}

	/**
	* doubleValue returns current value.
	*/
	public void testDoubleValue() {
	DoubleAccumulator ai = new DoubleAccumulator(Double::max, 0.0);
	assertEquals(0.0, ai.doubleValue());
	ai.accumulate(1.0);
	assertEquals(1.0, ai.doubleValue());
	}

	/**
	* accumulates by multiple threads produce correct result
	*/
	public void testAccumulateAndGetMT() {
	final int incs = 1000000;
	final int nthreads = 4;
	final ExecutorService pool = Executors.newCachedThreadPool();
	DoubleAccumulator a = new DoubleAccumulator(Double::max, 0.0);
	Phaser phaser = new Phaser(nthreads + 1);
	for (int i = 0; i < nthreads; ++i)
	pool.execute(new AccTask(a, phaser, incs));
	phaser.arriveAndAwaitAdvance();
	phaser.arriveAndAwaitAdvance();
	double expected = incs - 1;
	double result = a.get();
	assertEquals(expected, result);
	pool.shutdown();
	}

	static final class AccTask implements Runnable {
	final DoubleAccumulator acc;
	final Phaser phaser;
	final int incs;
	volatile double result;
	AccTask(DoubleAccumulator acc, Phaser phaser, int incs) {
	this.acc = acc;
	this.phaser = phaser;
	this.incs = incs;
	}

	public void run() {
	phaser.arriveAndAwaitAdvance();
	DoubleAccumulator a = acc;
	for (int i = 0; i < incs; ++i)
	a.accumulate(i);
	result = a.get();
	phaser.arrive();
	}
	}

	}