public class ThreadLocalRandom extends Random
Random
generator used by the Math
class, a ThreadLocalRandom
is initialized
with an internally generated seed that may not otherwise be
modified. When applicable, use of ThreadLocalRandom
rather
than shared Random
objects in concurrent programs will
typically encounter much less overhead and contention. Use of
ThreadLocalRandom
is particularly appropriate when multiple
tasks (for example, each a ForkJoinTask
) use random numbers
in parallel in thread pools.
Usages of this class should typically be of the form:
ThreadLocalRandom.current().nextX(...)
(where
X
is Int
, Long
, etc).
When all usages are of this form, it is never possible to
accidently share a ThreadLocalRandom
across multiple threads.
This class also provides additional commonly used bounded random generation methods.
Instances of ThreadLocalRandom
are not cryptographically
secure. Consider instead using SecureRandom
in security-sensitive applications. Additionally,
default-constructed instances do not use a cryptographically random
seed unless the system property
java.util.secureRandomSeed
is set to true
.
Modifier and Type | Method and Description |
---|---|
static ThreadLocalRandom |
current()
Returns the current thread's
ThreadLocalRandom . |
DoubleStream |
doubles()
Returns an effectively unlimited stream of pseudorandom
double values, each between zero (inclusive) and one
(exclusive). |
DoubleStream |
doubles(double randomNumberOrigin,
double randomNumberBound)
Returns an effectively unlimited stream of pseudorandom
double values, each conforming to the given origin (inclusive) and bound
(exclusive). |
DoubleStream |
doubles(long streamSize)
Returns a stream producing the given
streamSize number of
pseudorandom double values, each between zero
(inclusive) and one (exclusive). |
DoubleStream |
doubles(long streamSize,
double randomNumberOrigin,
double randomNumberBound)
Returns a stream producing the given
streamSize number of
pseudorandom double values, each conforming to the given origin
(inclusive) and bound (exclusive). |
IntStream |
ints()
Returns an effectively unlimited stream of pseudorandom
int
values. |
IntStream |
ints(int randomNumberOrigin,
int randomNumberBound)
Returns an effectively unlimited stream of pseudorandom
int values, each conforming to the given origin (inclusive) and bound
(exclusive). |
IntStream |
ints(long streamSize)
Returns a stream producing the given
streamSize number of
pseudorandom int values. |
IntStream |
ints(long streamSize,
int randomNumberOrigin,
int randomNumberBound)
Returns a stream producing the given
streamSize number
of pseudorandom int values, each conforming to the given
origin (inclusive) and bound (exclusive). |
LongStream |
longs()
Returns an effectively unlimited stream of pseudorandom
long
values. |
LongStream |
longs(long streamSize)
Returns a stream producing the given
streamSize number of
pseudorandom long values. |
LongStream |
longs(long randomNumberOrigin,
long randomNumberBound)
Returns an effectively unlimited stream of pseudorandom
long values, each conforming to the given origin (inclusive) and bound
(exclusive). |
LongStream |
longs(long streamSize,
long randomNumberOrigin,
long randomNumberBound)
Returns a stream producing the given
streamSize number of
pseudorandom long , each conforming to the given origin
(inclusive) and bound (exclusive). |
protected int |
next(int bits)
Generates the next pseudorandom number.
|
boolean |
nextBoolean()
Returns a pseudorandom
boolean value. |
double |
nextDouble()
Returns a pseudorandom
double value between zero
(inclusive) and one (exclusive). |
double |
nextDouble(double bound)
Returns a pseudorandom
double value between 0.0
(inclusive) and the specified bound (exclusive). |
double |
nextDouble(double origin,
double bound)
Returns a pseudorandom
double value between the specified
origin (inclusive) and bound (exclusive). |
float |
nextFloat()
Returns a pseudorandom
float value between zero
(inclusive) and one (exclusive). |
double |
nextGaussian()
Returns the next pseudorandom, Gaussian ("normally") distributed
double value with mean 0.0 and standard
deviation 1.0 from this random number generator's sequence. |
int |
nextInt()
Returns a pseudorandom
int value. |
int |
nextInt(int bound)
Returns a pseudorandom
int value between zero (inclusive)
and the specified bound (exclusive). |
int |
nextInt(int origin,
int bound)
Returns a pseudorandom
int value between the specified
origin (inclusive) and the specified bound (exclusive). |
long |
nextLong()
Returns a pseudorandom
long value. |
long |
nextLong(long bound)
Returns a pseudorandom
long value between zero (inclusive)
and the specified bound (exclusive). |
long |
nextLong(long origin,
long bound)
Returns a pseudorandom
long value between the specified
origin (inclusive) and the specified bound (exclusive). |
void |
setSeed(long seed)
Throws
UnsupportedOperationException . |
public static ThreadLocalRandom current()
ThreadLocalRandom
.ThreadLocalRandom
public void setSeed(long seed)
UnsupportedOperationException
. Setting seeds in
this generator is not supported.setSeed
in class Random
seed
- the initial seedUnsupportedOperationException
- alwaysprotected int next(int bits)
Random
The general contract of next
is that it returns an
int
value and if the argument bits
is between
1
and 32
(inclusive), then that many low-order
bits of the returned value will be (approximately) independently
chosen bit values, each of which is (approximately) equally
likely to be 0
or 1
. The method next
is
implemented by class Random
by atomically updating the seed to
(seed * 0x5DEECE66DL + 0xBL) & ((1L << 48) - 1)
and returning
(int)(seed >>> (48 - bits))
.
This is a linear congruential pseudorandom number generator, as
defined by D. H. Lehmer and described by Donald E. Knuth in
The Art of Computer Programming, Volume 3:
Seminumerical Algorithms, section 3.2.1.public int nextInt()
int
value.public int nextInt(int bound)
int
value between zero (inclusive)
and the specified bound (exclusive).nextInt
in class Random
bound
- the upper bound (exclusive). Must be positive.int
value between zero
(inclusive) and the bound (exclusive)IllegalArgumentException
- if bound
is not positivepublic int nextInt(int origin, int bound)
int
value between the specified
origin (inclusive) and the specified bound (exclusive).origin
- the least value returnedbound
- the upper bound (exclusive)int
value between the origin
(inclusive) and the bound (exclusive)IllegalArgumentException
- if origin
is greater than
or equal to bound
public long nextLong()
long
value.public long nextLong(long bound)
long
value between zero (inclusive)
and the specified bound (exclusive).bound
- the upper bound (exclusive). Must be positive.long
value between zero
(inclusive) and the bound (exclusive)IllegalArgumentException
- if bound
is not positivepublic long nextLong(long origin, long bound)
long
value between the specified
origin (inclusive) and the specified bound (exclusive).origin
- the least value returnedbound
- the upper bound (exclusive)long
value between the origin
(inclusive) and the bound (exclusive)IllegalArgumentException
- if origin
is greater than
or equal to bound
public double nextDouble()
double
value between zero
(inclusive) and one (exclusive).nextDouble
in class Random
double
value between zero
(inclusive) and one (exclusive)Math.random()
public double nextDouble(double bound)
double
value between 0.0
(inclusive) and the specified bound (exclusive).bound
- the upper bound (exclusive). Must be positive.double
value between zero
(inclusive) and the bound (exclusive)IllegalArgumentException
- if bound
is not positivepublic double nextDouble(double origin, double bound)
double
value between the specified
origin (inclusive) and bound (exclusive).origin
- the least value returnedbound
- the upper bound (exclusive)double
value between the origin
(inclusive) and the bound (exclusive)IllegalArgumentException
- if origin
is greater than
or equal to bound
public boolean nextBoolean()
boolean
value.nextBoolean
in class Random
boolean
valuepublic float nextFloat()
float
value between zero
(inclusive) and one (exclusive).public double nextGaussian()
Random
double
value with mean 0.0
and standard
deviation 1.0
from this random number generator's sequence.
The general contract of nextGaussian
is that one
double
value, chosen from (approximately) the usual
normal distribution with mean 0.0
and standard deviation
1.0
, is pseudorandomly generated and returned.
The method nextGaussian
is implemented by class
Random
as if by a threadsafe version of the following:
private double nextNextGaussian;
private boolean haveNextNextGaussian = false;
public double nextGaussian() {
if (haveNextNextGaussian) {
haveNextNextGaussian = false;
return nextNextGaussian;
} else {
double v1, v2, s;
do {
v1 = 2 * nextDouble() - 1; // between -1.0 and 1.0
v2 = 2 * nextDouble() - 1; // between -1.0 and 1.0
s = v1 * v1 + v2 * v2;
} while (s >= 1 || s == 0);
double multiplier = StrictMath.sqrt(-2 * StrictMath.log(s)/s);
nextNextGaussian = v2 * multiplier;
haveNextNextGaussian = true;
return v1 * multiplier;
}
}
This uses the polar method of G. E. P. Box, M. E. Muller, and
G. Marsaglia, as described by Donald E. Knuth in The Art of
Computer Programming, Volume 3: Seminumerical Algorithms,
section 3.4.1, subsection C, algorithm P. Note that it generates two
independent values at the cost of only one call to StrictMath.log
and one call to StrictMath.sqrt
.nextGaussian
in class Random
double
value with mean 0.0
and
standard deviation 1.0
from this random number
generator's sequencepublic IntStream ints(long streamSize)
streamSize
number of
pseudorandom int
values.ints
in class Random
streamSize
- the number of values to generateint
valuesIllegalArgumentException
- if streamSize
is
less than zeropublic IntStream ints()
int
values.public IntStream ints(long streamSize, int randomNumberOrigin, int randomNumberBound)
streamSize
number
of pseudorandom int
values, each conforming to the given
origin (inclusive) and bound (exclusive).ints
in class Random
streamSize
- the number of values to generaterandomNumberOrigin
- the origin (inclusive) of each random valuerandomNumberBound
- the bound (exclusive) of each random valueint
values,
each with the given origin (inclusive) and bound (exclusive)IllegalArgumentException
- if streamSize
is
less than zero, or randomNumberOrigin
is greater than or equal to randomNumberBound
public IntStream ints(int randomNumberOrigin, int randomNumberBound)
int
values, each conforming to the given origin (inclusive) and bound
(exclusive).ints
in class Random
ints(Long.MAX_VALUE, randomNumberOrigin, randomNumberBound)
.randomNumberOrigin
- the origin (inclusive) of each random valuerandomNumberBound
- the bound (exclusive) of each random valueint
values,
each with the given origin (inclusive) and bound (exclusive)IllegalArgumentException
- if randomNumberOrigin
is greater than or equal to randomNumberBound
public LongStream longs(long streamSize)
streamSize
number of
pseudorandom long
values.longs
in class Random
streamSize
- the number of values to generatelong
valuesIllegalArgumentException
- if streamSize
is
less than zeropublic LongStream longs()
long
values.public LongStream longs(long streamSize, long randomNumberOrigin, long randomNumberBound)
streamSize
number of
pseudorandom long
, each conforming to the given origin
(inclusive) and bound (exclusive).longs
in class Random
streamSize
- the number of values to generaterandomNumberOrigin
- the origin (inclusive) of each random valuerandomNumberBound
- the bound (exclusive) of each random valuelong
values,
each with the given origin (inclusive) and bound (exclusive)IllegalArgumentException
- if streamSize
is
less than zero, or randomNumberOrigin
is greater than or equal to randomNumberBound
public LongStream longs(long randomNumberOrigin, long randomNumberBound)
long
values, each conforming to the given origin (inclusive) and bound
(exclusive).longs
in class Random
longs(Long.MAX_VALUE, randomNumberOrigin, randomNumberBound)
.randomNumberOrigin
- the origin (inclusive) of each random valuerandomNumberBound
- the bound (exclusive) of each random valuelong
values,
each with the given origin (inclusive) and bound (exclusive)IllegalArgumentException
- if randomNumberOrigin
is greater than or equal to randomNumberBound
public DoubleStream doubles(long streamSize)
streamSize
number of
pseudorandom double
values, each between zero
(inclusive) and one (exclusive).doubles
in class Random
streamSize
- the number of values to generatedouble
valuesIllegalArgumentException
- if streamSize
is
less than zeropublic DoubleStream doubles()
double
values, each between zero (inclusive) and one
(exclusive).public DoubleStream doubles(long streamSize, double randomNumberOrigin, double randomNumberBound)
streamSize
number of
pseudorandom double
values, each conforming to the given origin
(inclusive) and bound (exclusive).doubles
in class Random
streamSize
- the number of values to generaterandomNumberOrigin
- the origin (inclusive) of each random valuerandomNumberBound
- the bound (exclusive) of each random valuedouble
values,
each with the given origin (inclusive) and bound (exclusive)IllegalArgumentException
- if streamSize
is
less than zeroIllegalArgumentException
- if randomNumberOrigin
is greater than or equal to randomNumberBound
public DoubleStream doubles(double randomNumberOrigin, double randomNumberBound)
double
values, each conforming to the given origin (inclusive) and bound
(exclusive).doubles
in class Random
doubles(Long.MAX_VALUE, randomNumberOrigin, randomNumberBound)
.randomNumberOrigin
- the origin (inclusive) of each random valuerandomNumberBound
- the bound (exclusive) of each random valuedouble
values,
each with the given origin (inclusive) and bound (exclusive)IllegalArgumentException
- if randomNumberOrigin
is greater than or equal to randomNumberBound
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