Class AbstractRandomGenerator
- java.lang.Object
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- org.apache.commons.math.random.AbstractRandomGenerator
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- All Implemented Interfaces:
RandomGenerator
public abstract class AbstractRandomGenerator extends java.lang.Object implements RandomGenerator
Abstract class implementing theRandomGenerator
interface. Default implementations for all methods other thannextDouble()
andsetSeed(long)
are provided.All data generation methods are based on
code nextDouble()
. Concrete implementations must override this method and should provide better / more performant implementations of the other methods if the underlying PRNG supplies them.- Since:
- 1.1
- Version:
- $Revision: 990655 $ $Date: 2010-08-29 23:49:40 +0200 (dim. 29 août 2010) $
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Constructor Summary
Constructors Constructor Description AbstractRandomGenerator()
Construct a RandomGenerator.
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Method Summary
All Methods Instance Methods Abstract Methods Concrete Methods Modifier and Type Method Description void
clear()
Clears the cache used by the default implementation ofnextGaussian()
.boolean
nextBoolean()
Returns the next pseudorandom, uniformly distributedboolean
value from this random number generator's sequence.void
nextBytes(byte[] bytes)
Generates random bytes and places them into a user-supplied byte array.abstract double
nextDouble()
Returns the next pseudorandom, uniformly distributeddouble
value between0.0
and1.0
from this random number generator's sequence.float
nextFloat()
Returns the next pseudorandom, uniformly distributedfloat
value between0.0
and1.0
from this random number generator's sequence.double
nextGaussian()
Returns the next pseudorandom, Gaussian ("normally") distributeddouble
value with mean0.0
and standard deviation1.0
from this random number generator's sequence.int
nextInt()
Returns the next pseudorandom, uniformly distributedint
value from this random number generator's sequence.int
nextInt(int n)
Returns a pseudorandom, uniformly distributedint
value between 0 (inclusive) and the specified value (exclusive), drawn from this random number generator's sequence.long
nextLong()
Returns the next pseudorandom, uniformly distributedlong
value from this random number generator's sequence.void
setSeed(int seed)
Sets the seed of the underlying random number generator using anint
seed.void
setSeed(int[] seed)
Sets the seed of the underlying random number generator using anint
array seed.abstract void
setSeed(long seed)
Sets the seed of the underyling random number generator using along
seed.
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Method Detail
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clear
public void clear()
Clears the cache used by the default implementation ofnextGaussian()
. Implemementations that do not override the default implementation ofnextGaussian
should call this method in the implementation ofsetSeed(long)
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setSeed
public void setSeed(int seed)
Sets the seed of the underlying random number generator using anint
seed.Sequences of values generated starting with the same seeds should be identical.
- Specified by:
setSeed
in interfaceRandomGenerator
- Parameters:
seed
- the seed value
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setSeed
public void setSeed(int[] seed)
Sets the seed of the underlying random number generator using anint
array seed.Sequences of values generated starting with the same seeds should be identical.
- Specified by:
setSeed
in interfaceRandomGenerator
- Parameters:
seed
- the seed value
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setSeed
public abstract void setSeed(long seed)
Sets the seed of the underyling random number generator using along
seed. Sequences of values generated starting with the same seeds should be identical.Implementations that do not override the default implementation of
nextGaussian
should include a call toclear()
in the implementation of this method.- Specified by:
setSeed
in interfaceRandomGenerator
- Parameters:
seed
- the seed value
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nextBytes
public void nextBytes(byte[] bytes)
Generates random bytes and places them into a user-supplied byte array. The number of random bytes produced is equal to the length of the byte array.The default implementation fills the array with bytes extracted from random integers generated using
nextInt()
.- Specified by:
nextBytes
in interfaceRandomGenerator
- Parameters:
bytes
- the non-null byte array in which to put the random bytes
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nextInt
public int nextInt()
Returns the next pseudorandom, uniformly distributedint
value from this random number generator's sequence. All 232 possibleint
values should be produced with (approximately) equal probability.The default implementation provided here returns
(int) (nextDouble() * Integer.MAX_VALUE)
- Specified by:
nextInt
in interfaceRandomGenerator
- Returns:
- the next pseudorandom, uniformly distributed
int
value from this random number generator's sequence
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nextInt
public int nextInt(int n)
Returns a pseudorandom, uniformly distributedint
value between 0 (inclusive) and the specified value (exclusive), drawn from this random number generator's sequence.The default implementation returns
(int) (nextDouble() * n
- Specified by:
nextInt
in interfaceRandomGenerator
- Parameters:
n
- the bound on the random number to be returned. Must be positive.- Returns:
- a pseudorandom, uniformly distributed
int
value between 0 (inclusive) and n (exclusive). - Throws:
NotStrictlyPositiveException
- ifn <= 0
.
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nextLong
public long nextLong()
Returns the next pseudorandom, uniformly distributedlong
value from this random number generator's sequence. All 264 possiblelong
values should be produced with (approximately) equal probability.The default implementation returns
(long) (nextDouble() * Long.MAX_VALUE)
- Specified by:
nextLong
in interfaceRandomGenerator
- Returns:
- the next pseudorandom, uniformly distributed
long
value from this random number generator's sequence
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nextBoolean
public boolean nextBoolean()
Returns the next pseudorandom, uniformly distributedboolean
value from this random number generator's sequence.The default implementation returns
nextDouble() <= 0.5
- Specified by:
nextBoolean
in interfaceRandomGenerator
- Returns:
- the next pseudorandom, uniformly distributed
boolean
value from this random number generator's sequence
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nextFloat
public float nextFloat()
Returns the next pseudorandom, uniformly distributedfloat
value between0.0
and1.0
from this random number generator's sequence.The default implementation returns
(float) nextDouble()
- Specified by:
nextFloat
in interfaceRandomGenerator
- Returns:
- the next pseudorandom, uniformly distributed
float
value between0.0
and1.0
from this random number generator's sequence
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nextDouble
public abstract double nextDouble()
Returns the next pseudorandom, uniformly distributeddouble
value between0.0
and1.0
from this random number generator's sequence.This method provides the underlying source of random data used by the other methods.
- Specified by:
nextDouble
in interfaceRandomGenerator
- Returns:
- the next pseudorandom, uniformly distributed
double
value between0.0
and1.0
from this random number generator's sequence
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nextGaussian
public double nextGaussian()
Returns the next pseudorandom, Gaussian ("normally") distributeddouble
value with mean0.0
and standard deviation1.0
from this random number generator's sequence.The default implementation uses the Polar Method due to G.E.P. Box, M.E. Muller and G. Marsaglia, as described in D. Knuth, The Art of Computer Programming, 3.4.1C.
The algorithm generates a pair of independent random values. One of these is cached for reuse, so the full algorithm is not executed on each activation. Implementations that do not override this method should make sure to call
clear()
to clear the cached value in the implementation ofsetSeed(long)
.- Specified by:
nextGaussian
in interfaceRandomGenerator
- Returns:
- the next pseudorandom, Gaussian ("normally") distributed
double
value with mean0.0
and standard deviation1.0
from this random number generator's sequence
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