jsr166-tests/src/test/java/jsr166/ThreadLocalRandom8Test.java - platform/libcore - 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.ThreadLocalRandom;
 import java.util.concurrent.atomic.AtomicInteger;
 import java.util.concurrent.atomic.LongAdder;

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

 public class ThreadLocalRandom8Test 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(ThreadLocalRandom8Test.class);
     // }

     // max sampled int bound
     static final int MAX_INT_BOUND = (1 << 26);

     // max sampled long bound
     static final long MAX_LONG_BOUND = (1L << 42);

     // Number of replications for other checks
     static final int REPS =
         Integer.getInteger("ThreadLocalRandom8Test.reps", 4);

     /**
      * Invoking sized ints, long, doubles, with negative sizes throws
      * IllegalArgumentException
      */
     public void testBadStreamSize() {
         ThreadLocalRandom r = ThreadLocalRandom.current();
         Runnable[] throwingActions = {
             () -> r.ints(-1L),
             () -> r.ints(-1L, 2, 3),
             () -> r.longs(-1L),
             () -> r.longs(-1L, -1L, 1L),
             () -> r.doubles(-1L),
             () -> r.doubles(-1L, .5, .6),
         };
         assertThrows(IllegalArgumentException.class, throwingActions);
     }

     /**
      * Invoking bounded ints, long, doubles, with illegal bounds throws
      * IllegalArgumentException
      */
     public void testBadStreamBounds() {
         ThreadLocalRandom r = ThreadLocalRandom.current();
         Runnable[] throwingActions = {
             () -> r.ints(2, 1),
             () -> r.ints(10, 42, 42),
             () -> r.longs(-1L, -1L),
             () -> r.longs(10, 1L, -2L),
             () -> r.doubles(0.0, 0.0),
             () -> r.doubles(10, .5, .4),
         };
         assertThrows(IllegalArgumentException.class, throwingActions);
     }

     /**
      * A parallel sized stream of ints generates the given number of values
      */
     public void testIntsCount() {
         LongAdder counter = new LongAdder();
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 0;
         for (int reps = 0; reps < REPS; ++reps) {
             counter.reset();
             r.ints(size).parallel().forEach(x -> counter.increment());
             assertEquals(size, counter.sum());
             size += 524959;
         }
     }

     /**
      * A parallel sized stream of longs generates the given number of values
      */
     public void testLongsCount() {
         LongAdder counter = new LongAdder();
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 0;
         for (int reps = 0; reps < REPS; ++reps) {
             counter.reset();
             r.longs(size).parallel().forEach(x -> counter.increment());
             assertEquals(size, counter.sum());
             size += 524959;
         }
     }

     /**
      * A parallel sized stream of doubles generates the given number of values
      */
     public void testDoublesCount() {
         LongAdder counter = new LongAdder();
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 0;
         for (int reps = 0; reps < REPS; ++reps) {
             counter.reset();
             r.doubles(size).parallel().forEach(x -> counter.increment());
             assertEquals(size, counter.sum());
             size += 524959;
         }
     }

     /**
      * Each of a parallel sized stream of bounded ints is within bounds
      */
     public void testBoundedInts() {
         AtomicInteger fails = new AtomicInteger(0);
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 12345L;
         for (int least = -15485867; least < MAX_INT_BOUND; least += 524959) {
             for (int bound = least + 2; bound > least && bound < MAX_INT_BOUND; bound += 67867967) {
                 final int lo = least, hi = bound;
                 r.ints(size, lo, hi).parallel().forEach(
                     x -> {
                         if (x < lo || x >= hi)
                             fails.getAndIncrement(); });
             }
         }
         assertEquals(0, fails.get());
     }

     /**
      * Each of a parallel sized stream of bounded longs is within bounds
      */
     public void testBoundedLongs() {
         AtomicInteger fails = new AtomicInteger(0);
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 123L;
         for (long least = -86028121; least < MAX_LONG_BOUND; least += 1982451653L) {
             for (long bound = least + 2; bound > least && bound < MAX_LONG_BOUND; bound += Math.abs(bound * 7919)) {
                 final long lo = least, hi = bound;
                 r.longs(size, lo, hi).parallel().forEach(
                     x -> {
                         if (x < lo || x >= hi)
                             fails.getAndIncrement(); });
             }
         }
         assertEquals(0, fails.get());
     }

     /**
      * Each of a parallel sized stream of bounded doubles is within bounds
      */
     public void testBoundedDoubles() {
         AtomicInteger fails = new AtomicInteger(0);
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 456;
         for (double least = 0.00011; least < 1.0e20; least *= 9) {
             for (double bound = least * 1.0011; bound < 1.0e20; bound *= 17) {
                 final double lo = least, hi = bound;
                 r.doubles(size, lo, hi).parallel().forEach(
                     x -> {
                         if (x < lo || x >= hi)
                             fails.getAndIncrement(); });
             }
         }
         assertEquals(0, fails.get());
     }

     /**
      * A parallel unsized stream of ints generates at least 100 values
      */
     public void testUnsizedIntsCount() {
         LongAdder counter = new LongAdder();
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 100;
         r.ints().limit(size).parallel().forEach(x -> counter.increment());
         assertEquals(size, counter.sum());
     }

     /**
      * A parallel unsized stream of longs generates at least 100 values
      */
     public void testUnsizedLongsCount() {
         LongAdder counter = new LongAdder();
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 100;
         r.longs().limit(size).parallel().forEach(x -> counter.increment());
         assertEquals(size, counter.sum());
     }

     /**
      * A parallel unsized stream of doubles generates at least 100 values
      */
     public void testUnsizedDoublesCount() {
         LongAdder counter = new LongAdder();
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 100;
         r.doubles().limit(size).parallel().forEach(x -> counter.increment());
         assertEquals(size, counter.sum());
     }

     /**
      * A sequential unsized stream of ints generates at least 100 values
      */
     public void testUnsizedIntsCountSeq() {
         LongAdder counter = new LongAdder();
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 100;
         r.ints().limit(size).forEach(x -> counter.increment());
         assertEquals(size, counter.sum());
     }

     /**
      * A sequential unsized stream of longs generates at least 100 values
      */
     public void testUnsizedLongsCountSeq() {
         LongAdder counter = new LongAdder();
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 100;
         r.longs().limit(size).forEach(x -> counter.increment());
         assertEquals(size, counter.sum());
     }

     /**
      * A sequential unsized stream of doubles generates at least 100 values
      */
     public void testUnsizedDoublesCountSeq() {
         LongAdder counter = new LongAdder();
         ThreadLocalRandom r = ThreadLocalRandom.current();
         long size = 100;
         r.doubles().limit(size).forEach(x -> counter.increment());
         assertEquals(size, counter.sum());
     }

 }
	/*
	* 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.ThreadLocalRandom;
	import java.util.concurrent.atomic.AtomicInteger;
	import java.util.concurrent.atomic.LongAdder;

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

	public class ThreadLocalRandom8Test 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(ThreadLocalRandom8Test.class);
	// }

	// max sampled int bound
	static final int MAX_INT_BOUND = (1 << 26);

	// max sampled long bound
	static final long MAX_LONG_BOUND = (1L << 42);

	// Number of replications for other checks
	static final int REPS =
	Integer.getInteger("ThreadLocalRandom8Test.reps", 4);

	/**
	* Invoking sized ints, long, doubles, with negative sizes throws
	* IllegalArgumentException
	*/
	public void testBadStreamSize() {
	ThreadLocalRandom r = ThreadLocalRandom.current();
	Runnable[] throwingActions = {
	() -> r.ints(-1L),
	() -> r.ints(-1L, 2, 3),
	() -> r.longs(-1L),
	() -> r.longs(-1L, -1L, 1L),
	() -> r.doubles(-1L),
	() -> r.doubles(-1L, .5, .6),
	};
	assertThrows(IllegalArgumentException.class, throwingActions);
	}

	/**
	* Invoking bounded ints, long, doubles, with illegal bounds throws
	* IllegalArgumentException
	*/
	public void testBadStreamBounds() {
	ThreadLocalRandom r = ThreadLocalRandom.current();
	Runnable[] throwingActions = {
	() -> r.ints(2, 1),
	() -> r.ints(10, 42, 42),
	() -> r.longs(-1L, -1L),
	() -> r.longs(10, 1L, -2L),
	() -> r.doubles(0.0, 0.0),
	() -> r.doubles(10, .5, .4),
	};
	assertThrows(IllegalArgumentException.class, throwingActions);
	}

	/**
	* A parallel sized stream of ints generates the given number of values
	*/
	public void testIntsCount() {
	LongAdder counter = new LongAdder();
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 0;
	for (int reps = 0; reps < REPS; ++reps) {
	counter.reset();
	r.ints(size).parallel().forEach(x -> counter.increment());
	assertEquals(size, counter.sum());
	size += 524959;
	}
	}

	/**
	* A parallel sized stream of longs generates the given number of values
	*/
	public void testLongsCount() {
	LongAdder counter = new LongAdder();
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 0;
	for (int reps = 0; reps < REPS; ++reps) {
	counter.reset();
	r.longs(size).parallel().forEach(x -> counter.increment());
	assertEquals(size, counter.sum());
	size += 524959;
	}
	}

	/**
	* A parallel sized stream of doubles generates the given number of values
	*/
	public void testDoublesCount() {
	LongAdder counter = new LongAdder();
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 0;
	for (int reps = 0; reps < REPS; ++reps) {
	counter.reset();
	r.doubles(size).parallel().forEach(x -> counter.increment());
	assertEquals(size, counter.sum());
	size += 524959;
	}
	}

	/**
	* Each of a parallel sized stream of bounded ints is within bounds
	*/
	public void testBoundedInts() {
	AtomicInteger fails = new AtomicInteger(0);
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 12345L;
	for (int least = -15485867; least < MAX_INT_BOUND; least += 524959) {
	for (int bound = least + 2; bound > least && bound < MAX_INT_BOUND; bound += 67867967) {
	final int lo = least, hi = bound;
	r.ints(size, lo, hi).parallel().forEach(
	x -> {
	if (x < lo \|\| x >= hi)
	fails.getAndIncrement(); });
	}
	}
	assertEquals(0, fails.get());
	}

	/**
	* Each of a parallel sized stream of bounded longs is within bounds
	*/
	public void testBoundedLongs() {
	AtomicInteger fails = new AtomicInteger(0);
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 123L;
	for (long least = -86028121; least < MAX_LONG_BOUND; least += 1982451653L) {
	for (long bound = least + 2; bound > least && bound < MAX_LONG_BOUND; bound += Math.abs(bound * 7919)) {
	final long lo = least, hi = bound;
	r.longs(size, lo, hi).parallel().forEach(
	x -> {
	if (x < lo \|\| x >= hi)
	fails.getAndIncrement(); });
	}
	}
	assertEquals(0, fails.get());
	}

	/**
	* Each of a parallel sized stream of bounded doubles is within bounds
	*/
	public void testBoundedDoubles() {
	AtomicInteger fails = new AtomicInteger(0);
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 456;
	for (double least = 0.00011; least < 1.0e20; least *= 9) {
	for (double bound = least * 1.0011; bound < 1.0e20; bound *= 17) {
	final double lo = least, hi = bound;
	r.doubles(size, lo, hi).parallel().forEach(
	x -> {
	if (x < lo \|\| x >= hi)
	fails.getAndIncrement(); });
	}
	}
	assertEquals(0, fails.get());
	}

	/**
	* A parallel unsized stream of ints generates at least 100 values
	*/
	public void testUnsizedIntsCount() {
	LongAdder counter = new LongAdder();
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 100;
	r.ints().limit(size).parallel().forEach(x -> counter.increment());
	assertEquals(size, counter.sum());
	}

	/**
	* A parallel unsized stream of longs generates at least 100 values
	*/
	public void testUnsizedLongsCount() {
	LongAdder counter = new LongAdder();
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 100;
	r.longs().limit(size).parallel().forEach(x -> counter.increment());
	assertEquals(size, counter.sum());
	}

	/**
	* A parallel unsized stream of doubles generates at least 100 values
	*/
	public void testUnsizedDoublesCount() {
	LongAdder counter = new LongAdder();
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 100;
	r.doubles().limit(size).parallel().forEach(x -> counter.increment());
	assertEquals(size, counter.sum());
	}

	/**
	* A sequential unsized stream of ints generates at least 100 values
	*/
	public void testUnsizedIntsCountSeq() {
	LongAdder counter = new LongAdder();
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 100;
	r.ints().limit(size).forEach(x -> counter.increment());
	assertEquals(size, counter.sum());
	}

	/**
	* A sequential unsized stream of longs generates at least 100 values
	*/
	public void testUnsizedLongsCountSeq() {
	LongAdder counter = new LongAdder();
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 100;
	r.longs().limit(size).forEach(x -> counter.increment());
	assertEquals(size, counter.sum());
	}

	/**
	* A sequential unsized stream of doubles generates at least 100 values
	*/
	public void testUnsizedDoublesCountSeq() {
	LongAdder counter = new LongAdder();
	ThreadLocalRandom r = ThreadLocalRandom.current();
	long size = 100;
	r.doubles().limit(size).forEach(x -> counter.increment());
	assertEquals(size, counter.sum());
	}

	}