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package java.util; |
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import java.security.SecureRandom; |
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import java.util.concurrent.atomic.AtomicLong; |
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import java.util.Spliterator; |
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import java.util.function.IntConsumer; |
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import java.util.stream.LongStream; |
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import java.util.stream.DoubleStream; |
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/** |
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* A generator of uniform pseudorandom values applicable for use in |
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* (among other contexts) isolated parallel computations that may |
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* generate subtasks. Class SplittableRandom supports methods for |
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* producing pseudorandom nunmbers of type {@code int}, {@code long}, |
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* producing pseudorandom numbers of type {@code int}, {@code long}, |
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* and {@code double} with similar usages as for class |
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* {@link java.util.Random} but differs in the following ways: <ul> |
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* {@link java.util.Random} but differs in the following ways: |
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* |
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* <ul> |
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* |
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* <li>Series of generated values pass the DieHarder suite testing |
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* independence and uniformity properties of random number generators. |
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* href="http://www.phy.duke.edu/~rgb/General/dieharder.php"> version |
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* 3.31.1</a>.) These tests validate only the methods for certain |
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* types and ranges, but similar properties are expected to hold, at |
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* least approximately, for others as well. </li> |
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* least approximately, for others as well. The <em>period</em> |
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* (length of any series of generated values before it repeats) is at |
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* least 2<sup>64</sup>. </li> |
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* |
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* <li> Method {@link #split} constructs and returns a new |
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* SplittableRandom instance that shares no mutable state with the |
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* current instance. However, with very high probability, the set of |
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* values collectively generated by the two objects has the same |
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* current instance. However, with very high probability, the |
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* values collectively generated by the two objects have the same |
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* statistical properties as if the same quantity of values were |
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* generated by a single thread using a single {@code |
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* SplittableRandom} object. </li> |
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* Random-Number Generation for Dynamic-Multithreading Platforms", |
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* PPoPP 2012, but improves and extends it in several ways. |
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* |
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* The primary update step is simply to add a constant ("gamma") |
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* to the current seed, modulo a prime ("George"). However, the |
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* nextLong and nextInt methods do not return this value, but |
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* instead the results of bit-mixing transformations that produce |
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* more uniformly distributed sequences. |
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* The primary update step (see method nextSeed()) is simply to |
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* add a constant ("gamma") to the current seed, modulo a prime |
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* ("George"). However, the nextLong and nextInt methods do not |
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* return this value, but instead the results of bit-mixing |
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* transformations that produce more uniformly distributed |
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* sequences. |
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* |
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* "George" is the otherwise nameless (because it cannot be |
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* represented) prime number 2^64+13. Using a prime number larger |
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* are encountered; see method addGammaModGeorge. For this to |
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* work, initial gamma values must be at least 13. |
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* |
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* The value of gamma differs for each instance across a series of |
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* splits, and is generated using a slightly stripped-down variant |
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* of the same algorithm, but operating across calls to split(), |
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* not calls to nextSeed(): Each instance carries the state of |
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* this generator as nextSplit, and uses mix64(nextSplit) as its |
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* own gamma value. Computations of gammas themselves use a fixed |
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* constant as the second argument to the addGammaModGeorge |
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* function, GAMMA_GAMMA, a "genuinely random" number from a |
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* radioactive decay reading (obtained from |
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* http://www.fourmilab.ch/hotbits/) meeting the above range |
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* constraint. Using a fixed constant maintains the invariant that |
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* the value of gamma is the same for every instance that is at |
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* the same split-distance from their common root. (Note: there is |
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* nothing especially magic about obtaining this constant from a |
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* "truly random" physical source rather than just choosing one |
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* arbitrarily; using "hotbits" was merely an aesthetically pleasing |
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* choice. In either case, good statistical behavior of the |
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* algorithm should be, and was, verified by using the DieHarder |
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* test suite.) |
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* |
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* The mix64 bit-mixing function called by nextLong and other |
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* methods computes the same value as the "64-bit finalizer" |
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* function in Austin Appleby's MurmurHash3 algorithm. See |
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* http://code.google.com/p/smhasher/wiki/MurmurHash3 , which |
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* comments: "The constants for the finalizers were generated by a |
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* simple simulated-annealing algorithm, and both avalanche all |
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* bits of 'h' to within 0.25% bias." It also appears to work to |
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* use instead any of the variants proposed by David Stafford at |
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* http://zimbry.blogspot.com/2011/09/better-bit-mixing-improving-on.html |
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* but these variants have not yet been tested as thoroughly |
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* in the context of the implementation of SplittableRandom. |
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* bits of 'h' to within 0.25% bias." |
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* |
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* The value of gamma differs for each instance across a series of |
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* splits, and is generated using an independent variant of the |
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* same algorithm, but operating across calls to split(), not |
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* calls to nextSeed(): Each instance carries the state of this |
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* generator as nextSplit. Gammas are treated as 57bit values, |
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* advancing by adding GAMMA_GAMMA mod GAMMA_PRIME, and bit-mixed |
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* with a 57-bit version of mix, using the "Mix13" multiplicative |
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* constants for MurmurHash3 described by David Stafford |
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* (http://zimbry.blogspot.com/2011/09/better-bit-mixing-improving-on.html). |
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* The value of GAMMA_GAMMA is arbitrary (except must be at least |
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* 13 and less than GAMMA_PRIME), but because it serves as the |
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* base of split sequences, should be subject to validation of |
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* consequent random number quality metrics. |
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* |
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* The mix32 function used for nextInt just consists of two of the |
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* five lines of mix64; avalanche testing shows that the 64-bit result |
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* has its top 32 bits avalanched well, though not the bottom 32 bits. |
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* DieHarder tests show that it is adequate for generating one |
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* random int from the 64-bit result of nextSeed. |
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* five lines of mix64; avalanche testing shows that the 64-bit |
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* result has its top 32 bits avalanched well, though not the |
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* bottom 32 bits. DieHarder tests show that it is adequate for |
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* generating one random int from the 64-bit result of nextSeed. |
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* |
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* Support for the default (no-argument) constructor relies on an |
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* AtomicLong (defaultSeedGenerator) to help perform the |
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* SplittableRandom. Unlike other cases, this split must be |
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* performed in a thread-safe manner. We use |
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* AtomicLong.compareAndSet as the (typically) most efficient |
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* mechanism. To bootstrap, we start off using System.nanotime(), |
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* and update using another "genuinely random" constant |
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* mechanism. To bootstrap, we start off using a SecureRandom |
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* initial default seed, and update using a fixed |
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* DEFAULT_SEED_GAMMA. The default constructor uses GAMMA_GAMMA, |
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* not 0, for its splitSeed argument (addGammaModGeorge(0, |
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* GAMMA_GAMMA) == GAMMA_GAMMA) to reflect that each is split from |
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*/ |
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/** |
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* The "genuinely random" value for producing new gamma values. |
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* The value is arbitrary, subject to the requirement that it be |
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* greater or equal to 13. |
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* The prime modulus for gamma values. |
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*/ |
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private static final long GAMMA_PRIME = (1L << 57) - 13L; |
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|
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/** |
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* The value for producing new gamma values. Must be greater or |
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* equal to 13 and less than GAMMA_PRIME. Otherwise, the value is |
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* arbitrary subject to validation of the resulting statistical |
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* quality of splits. |
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*/ |
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private static final long GAMMA_GAMMA = 0x00aae38294f712aabL; |
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|
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/** |
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* The seed update value for default constructors. Must be |
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* greater or equal to 13. Otherwise, the value is arbitrary |
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* subject to quality checks. |
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*/ |
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private static final long GAMMA_GAMMA = 0xF2281E2DBA6606F3L; |
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private static final long DEFAULT_SEED_GAMMA = 0x9e3779b97f4a7c15L; |
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/** |
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* The "genuinely random" seed update value for default constructors. |
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* The value is arbitrary, subject to the requirement that it be |
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* greater or equal to 13. |
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* The value 13 with 64bit sign bit set. Used in the signed |
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* comparison in addGammaModGeorge. |
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*/ |
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private static final long DEFAULT_SEED_GAMMA = 0xBD24B73A95FB84D9L; |
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private static final long BOTTOM13 = 0x800000000000000DL; |
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|
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/** |
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* The least non-zero value returned by nextDouble(). This value |
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* is scaled by a random value of 53 bits to produce a result. |
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*/ |
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private static final double DOUBLE_UNIT = 1.0 / (1L << 53); |
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/** |
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* The next seed for default constructors. |
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*/ |
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private static final AtomicLong defaultSeedGenerator = |
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new AtomicLong(System.nanoTime()); |
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new AtomicLong(getInitialDefaultSeed()); |
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/** |
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* The seed, updated only via method nextSeed. |
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private final long nextSplit; |
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/** |
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* Internal constructor used by all other constructors and by |
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* method split. Establishes the initial seed for this instance, |
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* and uses the given splitSeed to establish gamma, as well as the |
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* nextSplit to use by this instance. |
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*/ |
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private SplittableRandom(long seed, long splitSeed) { |
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this.seed = seed; |
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long s = splitSeed, g; |
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do { // ensure gamma >= 13, considered as an unsigned integer |
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s = addGammaModGeorge(s, GAMMA_GAMMA); |
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g = mix64(s); |
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} while (Long.compareUnsigned(g, 13L) < 0); |
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this.gamma = g; |
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this.nextSplit = s; |
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} |
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|
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/** |
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* Adds the given gamma value, g, to the given seed value s, mod |
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* George (2^64+13). We regard s and g as unsigned values |
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* (ranging from 0 to 2^64-1). We add g to s either once or twice |
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* George < 2^64; thus we need only a conditional, not a loop, |
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* to be sure of getting a representable value. |
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* |
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* @param s a seed value |
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* Because Java comparison operators are signed, we implement this |
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* by conceptually offsetting seed values downwards by 2^63, so |
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* 0..13 is represented as Long.MIN_VALUE..BOTTOM13. |
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* |
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* @param s a seed value, viewed as a signed long |
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* @param g a gamma value, 13 <= g (as unsigned) |
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*/ |
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private static long addGammaModGeorge(long s, long g) { |
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long p = s + g; |
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if (Long.compareUnsigned(p, g) >= 0) |
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return p; |
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long q = p - 13L; |
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return (Long.compareUnsigned(p, 13L) >= 0) ? q : (q + g); |
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} |
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|
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/** |
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* Updates in-place and returns seed. |
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* See above for explanation. |
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*/ |
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private long nextSeed() { |
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return seed = addGammaModGeorge(seed, gamma); |
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return (p >= s) ? p : ((p >= BOTTOM13) ? p : p + g) - 13L; |
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} |
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/** |
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} |
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/** |
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* Atomically updates and returns next seed for default constructor |
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* Returns a 57-bit mixed transformation of its argument. See |
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* above for explanation. |
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*/ |
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private static long mix57(long z) { |
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z = (z ^ (z >>> 30)) * 0xbf58476d1ce4e5b9L; |
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z &= 0x01FFFFFFFFFFFFFFL; |
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z = (z ^ (z >>> 27)) * 0x94d049bb133111ebL; |
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z &= 0x01FFFFFFFFFFFFFFL; |
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z ^= (z >>> 31); |
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return z; |
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} |
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|
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/** |
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* Internal constructor used by all other constructors and by |
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* method split. Establishes the initial seed for this instance, |
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* and uses the given splitSeed to establish gamma, as well as the |
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* nextSplit to use by this instance. The loop to skip ineligible |
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* gammas very rarely iterates, and does so at most 13 times. |
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*/ |
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private SplittableRandom(long seed, long splitSeed) { |
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this.seed = seed; |
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long s = splitSeed, g; |
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do { // ensure gamma >= 13, considered as an unsigned integer |
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s += GAMMA_GAMMA; |
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if (s >= GAMMA_PRIME) |
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s -= GAMMA_PRIME; |
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g = mix57(s); |
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} while (g < 13L); |
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this.gamma = g; |
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this.nextSplit = s; |
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} |
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|
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/** |
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* Updates in-place and returns seed. |
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* See above for explanation. |
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*/ |
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private long nextSeed() { |
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return seed = addGammaModGeorge(seed, gamma); |
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} |
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|
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/** |
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* Atomically updates and returns next seed for default constructor. |
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*/ |
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private static long nextDefaultSeed() { |
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long oldSeed, newSeed; |
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return mix64(newSeed); |
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} |
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/** |
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* Returns an initial default seed. |
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*/ |
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private static long getInitialDefaultSeed() { |
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byte[] seedBytes = java.security.SecureRandom.getSeed(8); |
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long s = (long)(seedBytes[0]) & 0xffL; |
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for (int i = 1; i < 8; ++i) |
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s = (s << 8) | ((long)(seedBytes[i]) & 0xffL); |
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return s; |
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} |
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|
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/* |
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* Internal versions of nextX methods used by streams, as well as |
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* the public nextX(origin, bound) methods. These exist mainly to |
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* evenly divisible by the range. The loop rejects candidates |
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* computed from otherwise over-represented values. The |
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* expected number of iterations under an ideal generator |
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* varies from 1 to 2, depending on the bound. |
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* varies from 1 to 2, depending on the bound. The loop itself |
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* takes an unlovable form. Because the first candidate is |
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* already available, we need a break-in-the-middle |
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* construction, which is concisely but cryptically performed |
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* within the while-condition of a body-less for loop. |
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* |
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* 4. Otherwise, the range cannot be represented as a positive |
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* long. Repeatedly generate unbounded longs until obtaining |
363 |
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* a candidate meeting constraints (with an expected number of |
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* iterations of less than two). |
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* long. The loop repeatedly generates unbounded longs until |
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* obtaining a candidate meeting constraints (with an expected |
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* number of iterations of less than two). |
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*/ |
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|
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long r = mix64(nextSeed()); |
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if (origin < bound) { |
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long n = bound - origin, m = n - 1; |
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if ((n & m) == 0L) // power of two |
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if ((n & m) == 0L) // power of two |
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r = (r & m) + origin; |
372 |
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else if (n > 0) { // reject over-represented candidates |
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> |
else if (n > 0L) { // reject over-represented candidates |
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for (long u = r >>> 1; // ensure nonnegative |
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u + m - (r = u % n) < 0L; // reject |
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u + m - (r = u % n) < 0L; // rejection check |
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u = mix64(nextSeed()) >>> 1) // retry |
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; |
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r += origin; |
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} |
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else { // range not representable as long |
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else { // range not representable as long |
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while (r < origin || r >= bound) |
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r = mix64(nextSeed()); |
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} |
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int r = mix32(nextSeed()); |
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if (origin < bound) { |
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int n = bound - origin, m = n - 1; |
399 |
< |
if ((n & m) == 0L) |
399 |
> |
if ((n & m) == 0) |
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r = (r & m) + origin; |
401 |
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else if (n > 0) { |
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for (int u = r >>> 1; |
403 |
< |
u + m - (r = u % n) < 0L; |
403 |
> |
u + m - (r = u % n) < 0; |
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u = mix32(nextSeed()) >>> 1) |
405 |
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; |
406 |
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r += origin; |
421 |
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* @return a pseudorandom value |
422 |
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*/ |
423 |
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final double internalNextDouble(double origin, double bound) { |
424 |
< |
long bits = (1023L << 52) | (nextLong() >>> 12); |
380 |
< |
double r = Double.longBitsToDouble(bits) - 1.0; |
424 |
> |
double r = (nextLong() >>> 11) * DOUBLE_UNIT; |
425 |
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if (origin < bound) { |
426 |
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r = r * (bound - origin) + origin; |
427 |
< |
if (r == bound) // correct for rounding |
427 |
> |
if (r >= bound) // correct for rounding |
428 |
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r = Double.longBitsToDouble(Double.doubleToLongBits(bound) - 1); |
429 |
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} |
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return r; |
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/* ---------------- public methods ---------------- */ |
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|
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/** |
436 |
< |
* Creates a new SplittableRandom instance using the given initial |
437 |
< |
* seed. Two SplittableRandom instances created with the same seed |
438 |
< |
* generate identical sequences of values. |
436 |
> |
* Creates a new SplittableRandom instance using the specified |
437 |
> |
* initial seed. SplittableRandom instances created with the same |
438 |
> |
* seed in the same program generate identical sequences of values. |
439 |
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* |
440 |
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* @param seed the initial seed |
441 |
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*/ |
442 |
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public SplittableRandom(long seed) { |
443 |
< |
this(seed, 0); |
443 |
> |
this(seed, 0L); |
444 |
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} |
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|
446 |
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/** |
474 |
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/** |
475 |
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* Returns a pseudorandom {@code int} value. |
476 |
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* |
477 |
< |
* @return a pseudorandom value |
477 |
> |
* @return a pseudorandom {@code int} value |
478 |
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*/ |
479 |
|
public int nextInt() { |
480 |
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return mix32(nextSeed()); |
481 |
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} |
482 |
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|
483 |
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/** |
484 |
< |
* Returns a pseudorandom {@code int} value between 0 (inclusive) |
484 |
> |
* Returns a pseudorandom {@code int} value between zero (inclusive) |
485 |
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* and the specified bound (exclusive). |
486 |
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* |
487 |
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* @param bound the bound on the random number to be returned. Must be |
488 |
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* positive. |
489 |
< |
* @return a pseudorandom {@code int} value between {@code 0} |
490 |
< |
* (inclusive) and the bound (exclusive). |
491 |
< |
* @exception IllegalArgumentException if the bound is not positive |
489 |
> |
* @return a pseudorandom {@code int} value between zero |
490 |
> |
* (inclusive) and the bound (exclusive) |
491 |
> |
* @throws IllegalArgumentException if the bound is less than zero |
492 |
|
*/ |
493 |
|
public int nextInt(int bound) { |
494 |
|
if (bound <= 0) |
496 |
|
// Specialize internalNextInt for origin 0 |
497 |
|
int r = mix32(nextSeed()); |
498 |
|
int m = bound - 1; |
499 |
< |
if ((bound & m) == 0L) // power of two |
499 |
> |
if ((bound & m) == 0) // power of two |
500 |
|
r &= m; |
501 |
|
else { // reject over-represented candidates |
502 |
|
for (int u = r >>> 1; |
503 |
< |
u + m - (r = u % bound) < 0L; |
503 |
> |
u + m - (r = u % bound) < 0; |
504 |
|
u = mix32(nextSeed()) >>> 1) |
505 |
|
; |
506 |
|
} |
514 |
|
* @param origin the least value returned |
515 |
|
* @param bound the upper bound (exclusive) |
516 |
|
* @return a pseudorandom {@code int} value between the origin |
517 |
< |
* (inclusive) and the bound (exclusive). |
518 |
< |
* @exception IllegalArgumentException if {@code origin} is greater than |
517 |
> |
* (inclusive) and the bound (exclusive) |
518 |
> |
* @throws IllegalArgumentException if {@code origin} is greater than |
519 |
|
* or equal to {@code bound} |
520 |
|
*/ |
521 |
|
public int nextInt(int origin, int bound) { |
527 |
|
/** |
528 |
|
* Returns a pseudorandom {@code long} value. |
529 |
|
* |
530 |
< |
* @return a pseudorandom value |
530 |
> |
* @return a pseudorandom {@code long} value |
531 |
|
*/ |
532 |
|
public long nextLong() { |
533 |
|
return mix64(nextSeed()); |
534 |
|
} |
535 |
|
|
536 |
|
/** |
537 |
< |
* Returns a pseudorandom {@code long} value between 0 (inclusive) |
537 |
> |
* Returns a pseudorandom {@code long} value between zero (inclusive) |
538 |
|
* and the specified bound (exclusive). |
539 |
|
* |
540 |
|
* @param bound the bound on the random number to be returned. Must be |
541 |
|
* positive. |
542 |
< |
* @return a pseudorandom {@code long} value between {@code 0} |
543 |
< |
* (inclusive) and the bound (exclusive). |
544 |
< |
* @exception IllegalArgumentException if the bound is not positive |
542 |
> |
* @return a pseudorandom {@code long} value between zero |
543 |
> |
* (inclusive) and the bound (exclusive) |
544 |
> |
* @throws IllegalArgumentException if {@code bound} is less than zero |
545 |
|
*/ |
546 |
|
public long nextLong(long bound) { |
547 |
|
if (bound <= 0) |
567 |
|
* @param origin the least value returned |
568 |
|
* @param bound the upper bound (exclusive) |
569 |
|
* @return a pseudorandom {@code long} value between the origin |
570 |
< |
* (inclusive) and the bound (exclusive). |
571 |
< |
* @exception IllegalArgumentException if {@code origin} is greater than |
570 |
> |
* (inclusive) and the bound (exclusive) |
571 |
> |
* @throws IllegalArgumentException if {@code origin} is greater than |
572 |
|
* or equal to {@code bound} |
573 |
|
*/ |
574 |
|
public long nextLong(long origin, long bound) { |
578 |
|
} |
579 |
|
|
580 |
|
/** |
581 |
< |
* Returns a pseudorandom {@code double} value between {@code 0.0} |
582 |
< |
* (inclusive) and {@code 1.0} (exclusive). |
581 |
> |
* Returns a pseudorandom {@code double} value between zero |
582 |
> |
* (inclusive) and one (exclusive). |
583 |
|
* |
584 |
< |
* @return a pseudorandom value between {@code 0.0} |
585 |
< |
* (inclusive) and {@code 1.0} (exclusive) |
584 |
> |
* @return a pseudorandom {@code double} value between zero |
585 |
> |
* (inclusive) and one (exclusive) |
586 |
|
*/ |
587 |
|
public double nextDouble() { |
588 |
< |
long bits = (1023L << 52) | (nextLong() >>> 12); |
545 |
< |
return Double.longBitsToDouble(bits) - 1.0; |
588 |
> |
return (mix64(nextSeed()) >>> 11) * DOUBLE_UNIT; |
589 |
|
} |
590 |
|
|
591 |
|
/** |
594 |
|
* |
595 |
|
* @param bound the bound on the random number to be returned. Must be |
596 |
|
* positive. |
597 |
< |
* @return a pseudorandom {@code double} value between {@code 0.0} |
598 |
< |
* (inclusive) and the bound (exclusive). |
599 |
< |
* @throws IllegalArgumentException if {@code bound} is not positive |
597 |
> |
* @return a pseudorandom {@code double} value between zero |
598 |
> |
* (inclusive) and the bound (exclusive) |
599 |
> |
* @throws IllegalArgumentException if {@code bound} is less than zero |
600 |
|
*/ |
601 |
|
public double nextDouble(double bound) { |
602 |
< |
if (bound <= 0.0) |
602 |
> |
if (!(bound > 0.0)) |
603 |
|
throw new IllegalArgumentException("bound must be positive"); |
604 |
< |
double result = nextDouble() * bound; |
604 |
> |
double result = (mix64(nextSeed()) >>> 11) * DOUBLE_UNIT * bound; |
605 |
|
return (result < bound) ? result : // correct for rounding |
606 |
|
Double.longBitsToDouble(Double.doubleToLongBits(bound) - 1); |
607 |
|
} |
608 |
|
|
609 |
|
/** |
610 |
< |
* Returns a pseudorandom {@code double} value between the given |
610 |
> |
* Returns a pseudorandom {@code double} value between the specified |
611 |
|
* origin (inclusive) and bound (exclusive). |
612 |
|
* |
613 |
|
* @param origin the least value returned |
614 |
|
* @param bound the upper bound |
615 |
|
* @return a pseudorandom {@code double} value between the origin |
616 |
< |
* (inclusive) and the bound (exclusive). |
616 |
> |
* (inclusive) and the bound (exclusive) |
617 |
|
* @throws IllegalArgumentException if {@code origin} is greater than |
618 |
|
* or equal to {@code bound} |
619 |
|
*/ |
620 |
|
public double nextDouble(double origin, double bound) { |
621 |
< |
if (origin >= bound) |
621 |
> |
if (!(origin < bound)) |
622 |
|
throw new IllegalArgumentException("bound must be greater than origin"); |
623 |
|
return internalNextDouble(origin, bound); |
624 |
|
} |
625 |
|
|
626 |
+ |
/** |
627 |
+ |
* Returns a pseudorandom {@code boolean} value. |
628 |
+ |
* |
629 |
+ |
* @return a pseudorandom {@code boolean} value |
630 |
+ |
*/ |
631 |
+ |
public boolean nextBoolean() { |
632 |
+ |
return mix32(nextSeed()) < 0; |
633 |
+ |
} |
634 |
+ |
|
635 |
|
// stream methods, coded in a way intended to better isolate for |
636 |
|
// maintenance purposes the small differences across forms. |
637 |
|
|
638 |
|
/** |
639 |
< |
* Returns a stream with the given {@code streamSize} number of |
639 |
> |
* Returns a stream producing the given {@code streamSize} number of |
640 |
|
* pseudorandom {@code int} values. |
641 |
|
* |
642 |
|
* @param streamSize the number of values to generate |
643 |
|
* @return a stream of pseudorandom {@code int} values |
644 |
|
* @throws IllegalArgumentException if {@code streamSize} is |
645 |
< |
* less than zero |
645 |
> |
* less than zero |
646 |
|
*/ |
647 |
|
public IntStream ints(long streamSize) { |
648 |
|
if (streamSize < 0L) |
655 |
|
|
656 |
|
/** |
657 |
|
* Returns an effectively unlimited stream of pseudorandom {@code int} |
658 |
< |
* values |
658 |
> |
* values. |
659 |
|
* |
660 |
|
* @implNote This method is implemented to be equivalent to {@code |
661 |
|
* ints(Long.MAX_VALUE)}. |
670 |
|
} |
671 |
|
|
672 |
|
/** |
673 |
< |
* Returns a stream with the given {@code streamSize} number of |
673 |
> |
* Returns a stream producing the given {@code streamSize} number of |
674 |
|
* pseudorandom {@code int} values, each conforming to the given |
675 |
|
* origin and bound. |
676 |
|
* |
678 |
|
* @param randomNumberOrigin the origin of each random value |
679 |
|
* @param randomNumberBound the bound of each random value |
680 |
|
* @return a stream of pseudorandom {@code int} values, |
681 |
< |
* each with the given origin and bound. |
681 |
> |
* each with the given origin and bound |
682 |
|
* @throws IllegalArgumentException if {@code streamSize} is |
683 |
< |
* less than zero. |
632 |
< |
* @throws IllegalArgumentException if {@code randomNumberOrigin} |
683 |
> |
* less than zero, or {@code randomNumberOrigin} |
684 |
|
* is greater than or equal to {@code randomNumberBound} |
685 |
|
*/ |
686 |
|
public IntStream ints(long streamSize, int randomNumberOrigin, |
705 |
|
* @param randomNumberOrigin the origin of each random value |
706 |
|
* @param randomNumberBound the bound of each random value |
707 |
|
* @return a stream of pseudorandom {@code int} values, |
708 |
< |
* each with the given origin and bound. |
708 |
> |
* each with the given origin and bound |
709 |
|
* @throws IllegalArgumentException if {@code randomNumberOrigin} |
710 |
|
* is greater than or equal to {@code randomNumberBound} |
711 |
|
*/ |
719 |
|
} |
720 |
|
|
721 |
|
/** |
722 |
< |
* Returns a stream with the given {@code streamSize} number of |
722 |
> |
* Returns a stream producing the given {@code streamSize} number of |
723 |
|
* pseudorandom {@code long} values. |
724 |
|
* |
725 |
|
* @param streamSize the number of values to generate |
726 |
< |
* @return a stream of {@code long} values |
726 |
> |
* @return a stream of pseudorandom {@code long} values |
727 |
|
* @throws IllegalArgumentException if {@code streamSize} is |
728 |
< |
* less than zero |
728 |
> |
* less than zero |
729 |
|
*/ |
730 |
|
public LongStream longs(long streamSize) { |
731 |
|
if (streamSize < 0L) |
753 |
|
} |
754 |
|
|
755 |
|
/** |
756 |
< |
* Returns a stream with the given {@code streamSize} number of |
756 |
> |
* Returns a stream producing the given {@code streamSize} number of |
757 |
|
* pseudorandom {@code long} values, each conforming to the |
758 |
|
* given origin and bound. |
759 |
|
* |
761 |
|
* @param randomNumberOrigin the origin of each random value |
762 |
|
* @param randomNumberBound the bound of each random value |
763 |
|
* @return a stream of pseudorandom {@code long} values, |
764 |
< |
* each with the given origin and bound. |
764 |
> |
* each with the given origin and bound |
765 |
|
* @throws IllegalArgumentException if {@code streamSize} is |
766 |
< |
* less than zero. |
716 |
< |
* @throws IllegalArgumentException if {@code randomNumberOrigin} |
766 |
> |
* less than zero, or {@code randomNumberOrigin} |
767 |
|
* is greater than or equal to {@code randomNumberBound} |
768 |
|
*/ |
769 |
|
public LongStream longs(long streamSize, long randomNumberOrigin, |
788 |
|
* @param randomNumberOrigin the origin of each random value |
789 |
|
* @param randomNumberBound the bound of each random value |
790 |
|
* @return a stream of pseudorandom {@code long} values, |
791 |
< |
* each with the given origin and bound. |
791 |
> |
* each with the given origin and bound |
792 |
|
* @throws IllegalArgumentException if {@code randomNumberOrigin} |
793 |
|
* is greater than or equal to {@code randomNumberBound} |
794 |
|
*/ |
802 |
|
} |
803 |
|
|
804 |
|
/** |
805 |
< |
* Returns a stream with the given {@code streamSize} number of |
806 |
< |
* pseudorandom {@code double} values, each between {@code 0.0} |
807 |
< |
* (inclusive) and {@code 1.0} (exclusive). |
805 |
> |
* Returns a stream producing the given {@code streamSize} number of |
806 |
> |
* pseudorandom {@code double} values, each between zero |
807 |
> |
* (inclusive) and one (exclusive). |
808 |
|
* |
809 |
|
* @param streamSize the number of values to generate |
810 |
|
* @return a stream of {@code double} values |
811 |
|
* @throws IllegalArgumentException if {@code streamSize} is |
812 |
< |
* less than zero |
812 |
> |
* less than zero |
813 |
|
*/ |
814 |
|
public DoubleStream doubles(long streamSize) { |
815 |
|
if (streamSize < 0L) |
822 |
|
|
823 |
|
/** |
824 |
|
* Returns an effectively unlimited stream of pseudorandom {@code |
825 |
< |
* double} values, each between {@code 0.0} (inclusive) and {@code |
826 |
< |
* 1.0} (exclusive). |
825 |
> |
* double} values, each between zero (inclusive) and one |
826 |
> |
* (exclusive). |
827 |
|
* |
828 |
|
* @implNote This method is implemented to be equivalent to {@code |
829 |
|
* doubles(Long.MAX_VALUE)}. |
838 |
|
} |
839 |
|
|
840 |
|
/** |
841 |
< |
* Returns a stream with the given {@code streamSize} number of |
841 |
> |
* Returns a stream producing the given {@code streamSize} number of |
842 |
|
* pseudorandom {@code double} values, each conforming to the |
843 |
|
* given origin and bound. |
844 |
|
* |
846 |
|
* @param randomNumberOrigin the origin of each random value |
847 |
|
* @param randomNumberBound the bound of each random value |
848 |
|
* @return a stream of pseudorandom {@code double} values, |
849 |
< |
* each with the given origin and bound. |
849 |
> |
* each with the given origin and bound |
850 |
|
* @throws IllegalArgumentException if {@code streamSize} is |
851 |
< |
* less than zero. |
851 |
> |
* less than zero |
852 |
|
* @throws IllegalArgumentException if {@code randomNumberOrigin} |
853 |
|
* is greater than or equal to {@code randomNumberBound} |
854 |
|
*/ |
856 |
|
double randomNumberBound) { |
857 |
|
if (streamSize < 0L) |
858 |
|
throw new IllegalArgumentException("negative Stream size"); |
859 |
< |
if (randomNumberOrigin >= randomNumberBound) |
859 |
> |
if (!(randomNumberOrigin < randomNumberBound)) |
860 |
|
throw new IllegalArgumentException("bound must be greater than origin"); |
861 |
|
return StreamSupport.doubleStream |
862 |
|
(new RandomDoublesSpliterator |
874 |
|
* @param randomNumberOrigin the origin of each random value |
875 |
|
* @param randomNumberBound the bound of each random value |
876 |
|
* @return a stream of pseudorandom {@code double} values, |
877 |
< |
* each with the given origin and bound. |
877 |
> |
* each with the given origin and bound |
878 |
|
* @throws IllegalArgumentException if {@code randomNumberOrigin} |
879 |
|
* is greater than or equal to {@code randomNumberBound} |
880 |
|
*/ |
881 |
|
public DoubleStream doubles(double randomNumberOrigin, double randomNumberBound) { |
882 |
< |
if (randomNumberOrigin >= randomNumberBound) |
882 |
> |
if (!(randomNumberOrigin < randomNumberBound)) |
883 |
|
throw new IllegalArgumentException("bound must be greater than origin"); |
884 |
|
return StreamSupport.doubleStream |
885 |
|
(new RandomDoublesSpliterator |
889 |
|
|
890 |
|
/** |
891 |
|
* Spliterator for int streams. We multiplex the four int |
892 |
< |
* versions into one class by treating and bound < origin as |
892 |
> |
* versions into one class by treating a bound less than origin as |
893 |
|
* unbounded, and also by treating "infinite" as equivalent to |
894 |
|
* Long.MAX_VALUE. For splits, it uses the standard divide-by-two |
895 |
|
* approach. The long and double versions of this class are |
896 |
|
* identical except for types. |
897 |
|
*/ |
898 |
< |
static class RandomIntsSpliterator implements Spliterator.OfInt { |
898 |
> |
static final class RandomIntsSpliterator implements Spliterator.OfInt { |
899 |
|
final SplittableRandom rng; |
900 |
|
long index; |
901 |
|
final long fence; |
919 |
|
|
920 |
|
public int characteristics() { |
921 |
|
return (Spliterator.SIZED | Spliterator.SUBSIZED | |
922 |
< |
Spliterator.ORDERED | Spliterator.NONNULL | |
873 |
< |
Spliterator.IMMUTABLE); |
922 |
> |
Spliterator.NONNULL | Spliterator.IMMUTABLE); |
923 |
|
} |
924 |
|
|
925 |
|
public boolean tryAdvance(IntConsumer consumer) { |
949 |
|
/** |
950 |
|
* Spliterator for long streams. |
951 |
|
*/ |
952 |
< |
static class RandomLongsSpliterator implements Spliterator.OfLong { |
952 |
> |
static final class RandomLongsSpliterator implements Spliterator.OfLong { |
953 |
|
final SplittableRandom rng; |
954 |
|
long index; |
955 |
|
final long fence; |
973 |
|
|
974 |
|
public int characteristics() { |
975 |
|
return (Spliterator.SIZED | Spliterator.SUBSIZED | |
976 |
< |
Spliterator.ORDERED | Spliterator.NONNULL | |
928 |
< |
Spliterator.IMMUTABLE); |
976 |
> |
Spliterator.NONNULL | Spliterator.IMMUTABLE); |
977 |
|
} |
978 |
|
|
979 |
|
public boolean tryAdvance(LongConsumer consumer) { |
1004 |
|
/** |
1005 |
|
* Spliterator for double streams. |
1006 |
|
*/ |
1007 |
< |
static class RandomDoublesSpliterator implements Spliterator.OfDouble { |
1007 |
> |
static final class RandomDoublesSpliterator implements Spliterator.OfDouble { |
1008 |
|
final SplittableRandom rng; |
1009 |
|
long index; |
1010 |
|
final long fence; |
1028 |
|
|
1029 |
|
public int characteristics() { |
1030 |
|
return (Spliterator.SIZED | Spliterator.SUBSIZED | |
1031 |
< |
Spliterator.ORDERED | Spliterator.NONNULL | |
984 |
< |
Spliterator.IMMUTABLE); |
1031 |
> |
Spliterator.NONNULL | Spliterator.IMMUTABLE); |
1032 |
|
} |
1033 |
|
|
1034 |
|
public boolean tryAdvance(DoubleConsumer consumer) { |
1056 |
|
} |
1057 |
|
|
1058 |
|
} |
1012 |
– |
|