W3cubDocs

/OpenJDK 21

Class RandomGeneratorFactory<T extends RandomGenerator>

java.lang.Object
java.util.random.RandomGeneratorFactory<T>
Type Parameters:
T - type of created random generator
public final class RandomGeneratorFactory<T extends RandomGenerator> extends Object
This is a factory class for generating multiple random number generators of a specific algorithm. RandomGeneratorFactory also provides methods for selecting random number generator algorithms. A specific RandomGeneratorFactory can be located by using the of(String) method, where the argument string is the name of the algorithm required. The method all() produces a non-empty Stream of all available RandomGeneratorFactorys that can be searched to locate a RandomGeneratorFactory suitable to the task. There are three methods for constructing a RandomGenerator instance, depending on the type of initial seed required. create(long) is used for long seed construction, create(byte[]) is used for byte[] seed construction, and create() is used for random seed construction. Example;
   RandomGeneratorFactory<RandomGenerator> factory = RandomGeneratorFactory.of("Random");

    for (int i = 0; i < 10; i++) {
        new Thread(() -> {
            RandomGenerator random = factory.create(100L);
            System.out.println(random.nextDouble());
        }).start();
    }
RandomGeneratorFactory also provides methods describing the attributes (or properties) of a generator and can be used to select random number generator algorithms. These methods are typically used in conjunction with all(). In this example, the code locates the RandomGeneratorFactory that produces RandomGenerators with the highest number of state bits.
    RandomGeneratorFactory<RandomGenerator> best = RandomGeneratorFactory.all()
        .filter(rgf -> !rgf.name().equals("SecureRandom")) // SecureRandom has MAX_VALUE stateBits.
        .sorted(Comparator.comparingInt(RandomGeneratorFactory<RandomGenerator>::stateBits).reversed())
        .findFirst()
        .orElse(RandomGeneratorFactory.of("Random"));
    System.out.println(best.name() + " in " + best.group() + " was selected");

    RandomGenerator rng = best.create();
    System.out.println(rng.nextLong());
Since:
17
See Also:

Method Summary

Modifier and Type Method Description
static Stream<RandomGeneratorFactory<RandomGenerator>> all()
Returns a non-empty stream of available RandomGeneratorFactory(s).
T create()
Create an instance of RandomGenerator based on algorithm chosen.
T create(byte[] seed)
Create an instance of RandomGenerator based on algorithm chosen providing a starting byte[] seed.
T create(long seed)
Create an instance of RandomGenerator based on algorithm chosen providing a starting long seed.
int equidistribution()
Returns the equidistribution of the algorithm.
static RandomGeneratorFactory<RandomGenerator> getDefault()
Returns a RandomGeneratorFactory meeting the minimal requirement of having an algorithm whose state bits are greater than or equal 64.
String group()
Return the group name of the algorithm used by the random number generator.
boolean isArbitrarilyJumpable()
Return true if random generator can jump an arbitrarily specified distant point in the state cycle.
boolean isDeprecated()
Return true if the implementation of RandomGenerator (algorithm) has been marked for deprecation.
boolean isHardware()
Return true if random generator uses a hardware device (HRNG) to produce entropic input.
boolean isJumpable()
Return true if random generator can jump a specified distant point in the state cycle.
boolean isLeapable()
Return true if random generator is jumpable and can leap to a very distant point in the state cycle.
boolean isSplittable()
Return true if random generator can be cloned into a separate object with the same properties but positioned further in the state cycle.
boolean isStatistical()
Return true if random generator is computed using an arithmetic algorithm and is statistically deterministic.
boolean isStochastic()
Return true if random generator is computed using external or entropic sources as inputs.
boolean isStreamable()
Return true if random generator can be used to create Streams of random numbers.
String name()
Return the name of the algorithm used by the random number generator.
static <T extends RandomGenerator>
RandomGeneratorFactory<T>
of(String name)
Returns a RandomGeneratorFactory that can produce instances of RandomGenerator that utilize the name algorithm.
BigInteger period()
Return the period of the algorithm used by the random number generator.
int stateBits()
Returns number of bits used by the algorithm to maintain state of seed.

Methods declared in class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Method Details

of

public static <T extends RandomGenerator> RandomGeneratorFactory<T> of(String name)
Returns a RandomGeneratorFactory that can produce instances of RandomGenerator that utilize the name algorithm.
Implementation Requirements:
Availability is determined by RandomGeneratorFactory using the service provider API to locate implementations of the RandomGenerator interface.
Type Parameters:
T - Sub-interface of RandomGenerator to produce
Parameters:
name - Name of random number generator algorithm
Returns:
RandomGeneratorFactory of RandomGenerator
Throws:
NullPointerException - if name is null
IllegalArgumentException - if the named algorithm is not found

getDefault

public static RandomGeneratorFactory<RandomGenerator> getDefault()
Returns a RandomGeneratorFactory meeting the minimal requirement of having an algorithm whose state bits are greater than or equal 64.
Implementation Requirements:
Since algorithms will improve over time, there is no guarantee that this method will return the same algorithm over time.
Returns:
a RandomGeneratorFactory

all

public static Stream<RandomGeneratorFactory<RandomGenerator>> all()
Returns a non-empty stream of available RandomGeneratorFactory(s). RandomGenerators that are marked as deprecated are not included in the result.
Implementation Requirements:
Availability is determined by RandomGeneratorFactory using the service provider API to locate implementations of the RandomGenerator interface.
Returns:
a non-empty stream of all available RandomGeneratorFactory(s).

name

public String name()
Return the name of the algorithm used by the random number generator.
Returns:
Name of the algorithm.

group

public String group()
Return the group name of the algorithm used by the random number generator.
Returns:
Group name of the algorithm.

stateBits

public int stateBits()
Returns number of bits used by the algorithm to maintain state of seed.
Returns:
number of bits used by the algorithm to maintain state of seed.

equidistribution

public int equidistribution()
Returns the equidistribution of the algorithm.
Returns:
the equidistribution of the algorithm.

period

public BigInteger period()
Return the period of the algorithm used by the random number generator. Returns BigInteger.ZERO if period is not determinable.
Returns:
BigInteger period.

isStatistical

public boolean isStatistical()
Return true if random generator is computed using an arithmetic algorithm and is statistically deterministic.
Returns:
true if random generator is statistical.

isStochastic

public boolean isStochastic()
Return true if random generator is computed using external or entropic sources as inputs.
Returns:
true if random generator is stochastic.

isHardware

public boolean isHardware()
Return true if random generator uses a hardware device (HRNG) to produce entropic input.
Returns:
true if random generator is generated by hardware.

isArbitrarilyJumpable

public boolean isArbitrarilyJumpable()
Return true if random generator can jump an arbitrarily specified distant point in the state cycle.
Returns:
true if random generator is arbitrarily jumpable.

isJumpable

public boolean isJumpable()
Return true if random generator can jump a specified distant point in the state cycle.
Returns:
true if random generator is jumpable.

isLeapable

public boolean isLeapable()
Return true if random generator is jumpable and can leap to a very distant point in the state cycle.
Returns:
true if random generator is leapable.

isSplittable

public boolean isSplittable()
Return true if random generator can be cloned into a separate object with the same properties but positioned further in the state cycle.
Returns:
true if random generator is splittable.

isStreamable

public boolean isStreamable()
Return true if random generator can be used to create Streams of random numbers.
Returns:
true if random generator is streamable.

isDeprecated

public boolean isDeprecated()
Return true if the implementation of RandomGenerator (algorithm) has been marked for deprecation.
Implementation Note:
Random number generator algorithms evolve over time; new algorithms will be introduced and old algorithms will lose standing. If an older algorithm is deemed unsuitable for continued use, it will be marked as deprecated to indicate that it may be removed at some point in the future.
Returns:
true if the implementation of RandomGenerator (algorithm) has been marked for deprecation

create

public T create()
Create an instance of RandomGenerator based on algorithm chosen.
Returns:
new in instance of RandomGenerator.

create

public T create(long seed)
Create an instance of RandomGenerator based on algorithm chosen providing a starting long seed. If long seed is not supported by an algorithm then the no argument form of create is used.
Parameters:
seed - long random seed value.
Returns:
new in instance of RandomGenerator.

create

public T create(byte[] seed)
Create an instance of RandomGenerator based on algorithm chosen providing a starting byte[] seed. If byte[] seed is not supported by an algorithm then the no argument form of create is used.
Parameters:
seed - byte array random seed value.
Returns:
new in instance of RandomGenerator.
Throws:
NullPointerException - if seed is null.

© 1993, 2023, Oracle and/or its affiliates. All rights reserved.
Documentation extracted from Debian's OpenJDK Development Kit package.
Licensed under the GNU General Public License, version 2, with the Classpath Exception.
Various third party code in OpenJDK is licensed under different licenses (see Debian package).
Java and OpenJDK are trademarks or registered trademarks of Oracle and/or its affiliates.
https://docs.oracle.com/en/java/javase/21/docs/api/java.base/java/util/random/RandomGeneratorFactory.html