forked from kscience/kmath
Move init blocks checks to factory method of and make all the samplers' constructor private
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28062cb096
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@ -7,11 +7,7 @@ import scientifik.kmath.prob.chain
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import kotlin.math.ln
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import kotlin.math.pow
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class AhrensDieterExponentialSampler(val mean: Double) : Sampler<Double> {
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init {
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require(mean > 0) { "mean is not strictly positive: $mean" }
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}
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class AhrensDieterExponentialSampler private constructor(val mean: Double) : Sampler<Double> {
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override fun sample(generator: RandomGenerator): Chain<Double> = generator.chain {
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// Step 1:
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var a = 0.0
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@ -46,10 +42,7 @@ class AhrensDieterExponentialSampler(val mean: Double) : Sampler<Double> {
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override fun toString(): String = "Ahrens-Dieter Exponential deviate"
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companion object {
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private val EXPONENTIAL_SA_QI = DoubleArray(16)
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fun of(mean: Double): Sampler<Double> =
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AhrensDieterExponentialSampler(mean)
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private val EXPONENTIAL_SA_QI by lazy { DoubleArray(16) }
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init {
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/**
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@ -64,5 +57,10 @@ class AhrensDieterExponentialSampler(val mean: Double) : Sampler<Double> {
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EXPONENTIAL_SA_QI[i] = qi
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}
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}
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fun of(mean: Double): AhrensDieterExponentialSampler {
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require(mean > 0) { "mean is not strictly positive: $mean" }
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return AhrensDieterExponentialSampler(mean)
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}
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}
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}
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@ -6,7 +6,7 @@ import scientifik.kmath.prob.Sampler
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import scientifik.kmath.prob.chain
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import kotlin.math.*
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class BoxMullerNormalizedGaussianSampler : NormalizedGaussianSampler, Sampler<Double> {
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class BoxMullerNormalizedGaussianSampler private constructor() : NormalizedGaussianSampler, Sampler<Double> {
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private var nextGaussian: Double = Double.NaN
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override fun sample(generator: RandomGenerator): Chain<Double> = generator.chain {
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@ -34,4 +34,8 @@ class BoxMullerNormalizedGaussianSampler : NormalizedGaussianSampler, Sampler<Do
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}
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override fun toString(): String = "Box-Muller normalized Gaussian deviate"
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companion object {
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fun of(): BoxMullerNormalizedGaussianSampler = BoxMullerNormalizedGaussianSampler()
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}
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}
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@ -5,16 +5,11 @@ import scientifik.kmath.chains.map
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import scientifik.kmath.prob.RandomGenerator
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import scientifik.kmath.prob.Sampler
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class GaussianSampler(
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class GaussianSampler private constructor(
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private val mean: Double,
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private val standardDeviation: Double,
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private val normalized: NormalizedGaussianSampler
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) : Sampler<Double> {
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init {
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require(standardDeviation > 0) { "standard deviation is not strictly positive: $standardDeviation" }
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}
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override fun sample(generator: RandomGenerator): Chain<Double> =
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normalized.sample(generator).map { standardDeviation * it + mean }
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@ -22,13 +17,17 @@ class GaussianSampler(
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companion object {
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fun of(
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normalized: NormalizedGaussianSampler,
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mean: Double,
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standardDeviation: Double
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) = GaussianSampler(
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mean,
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standardDeviation,
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normalized
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)
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standardDeviation: Double,
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normalized: NormalizedGaussianSampler
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): GaussianSampler {
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require(standardDeviation > 0) { "standard deviation is not strictly positive: $standardDeviation" }
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return GaussianSampler(
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mean,
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standardDeviation,
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normalized
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)
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}
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}
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}
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@ -41,10 +41,10 @@ class KempSmallMeanPoissonSampler private constructor(
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companion object {
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fun of(mean: Double): KempSmallMeanPoissonSampler {
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require(mean > 0) { "Mean is not strictly positive: $mean" }
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val p0: Double = exp(-mean)
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val p0 = exp(-mean)
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// Probability must be positive. As mean increases then p(0) decreases.
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if (p0 > 0) return KempSmallMeanPoissonSampler(p0, mean)
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throw IllegalArgumentException("No probability for mean: $mean")
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require(p0 > 0) { "No probability for mean: $mean" }
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return KempSmallMeanPoissonSampler(p0, mean)
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}
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}
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}
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@ -1,6 +1,5 @@
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package scientifik.kmath.prob.samplers
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import kotlinx.coroutines.flow.first
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import scientifik.kmath.chains.Chain
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import scientifik.kmath.chains.ConstantChain
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import scientifik.kmath.chains.SimpleChain
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@ -9,12 +8,10 @@ import scientifik.kmath.prob.Sampler
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import scientifik.kmath.prob.next
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import kotlin.math.*
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class LargeMeanPoissonSampler(val mean: Double) : Sampler<Int> {
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private val exponential: Sampler<Double> =
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AhrensDieterExponentialSampler.of(1.0)
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private val gaussian: Sampler<Double> =
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ZigguratNormalizedGaussianSampler()
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private val factorialLog: InternalUtils.FactorialLog = NO_CACHE_FACTORIAL_LOG!!
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class LargeMeanPoissonSampler private constructor(val mean: Double) : Sampler<Int> {
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private val exponential: Sampler<Double> = AhrensDieterExponentialSampler.of(1.0)
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private val gaussian: Sampler<Double> = ZigguratNormalizedGaussianSampler()
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private val factorialLog: InternalUtils.FactorialLog = NO_CACHE_FACTORIAL_LOG
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private val lambda: Double = floor(mean)
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private val logLambda: Double = ln(lambda)
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private val logLambdaFactorial: Double = getFactorialLog(lambda.toInt())
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@ -33,12 +30,6 @@ class LargeMeanPoissonSampler(val mean: Double) : Sampler<Int> {
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else // Not used.
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KempSmallMeanPoissonSampler.of(mean - lambda)
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init {
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require(mean >= 1) { "mean is not >= 1: $mean" }
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// The algorithm is not valid if Math.floor(mean) is not an integer.
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require(mean <= MAX_MEAN) { "mean $mean > $MAX_MEAN" }
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}
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override fun sample(generator: RandomGenerator): Chain<Int> = SimpleChain {
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// This will never be null. It may be a no-op delegate that returns zero.
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val y2 = smallMeanPoissonSampler.next(generator)
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@ -113,20 +104,18 @@ class LargeMeanPoissonSampler(val mean: Double) : Sampler<Int> {
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override fun toString(): String = "Large Mean Poisson deviate"
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companion object {
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private const val MAX_MEAN = 0.5 * Int.MAX_VALUE
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private var NO_CACHE_FACTORIAL_LOG: InternalUtils.FactorialLog? = null
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private const val MAX_MEAN: Double = 0.5 * Int.MAX_VALUE
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private val NO_CACHE_FACTORIAL_LOG: InternalUtils.FactorialLog = InternalUtils.FactorialLog.create()
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private val NO_SMALL_MEAN_POISSON_SAMPLER = object : Sampler<Int> {
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override fun sample(generator: RandomGenerator): Chain<Int> = ConstantChain(0)
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}
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fun of(mean: Double): LargeMeanPoissonSampler =
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LargeMeanPoissonSampler(mean)
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init {
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// Create without a cache.
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NO_CACHE_FACTORIAL_LOG =
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InternalUtils.FactorialLog.create()
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fun of(mean: Double): LargeMeanPoissonSampler {
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require(mean >= 1) { "mean is not >= 1: $mean" }
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// The algorithm is not valid if Math.floor(mean) is not an integer.
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require(mean <= MAX_MEAN) { "mean $mean > $MAX_MEAN" }
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return LargeMeanPoissonSampler(mean)
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}
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}
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}
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@ -7,7 +7,7 @@ import scientifik.kmath.prob.chain
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import kotlin.math.ln
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import kotlin.math.sqrt
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class MarsagliaNormalizedGaussianSampler : NormalizedGaussianSampler, Sampler<Double> {
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class MarsagliaNormalizedGaussianSampler private constructor(): NormalizedGaussianSampler, Sampler<Double> {
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private var nextGaussian = Double.NaN
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override fun sample(generator: RandomGenerator): Chain<Double> = generator.chain {
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@ -49,4 +49,8 @@ class MarsagliaNormalizedGaussianSampler : NormalizedGaussianSampler, Sampler<Do
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}
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override fun toString(): String = "Box-Muller (with rejection) normalized Gaussian deviate"
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companion object {
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fun of(): MarsagliaNormalizedGaussianSampler = MarsagliaNormalizedGaussianSampler()
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}
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}
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@ -5,16 +5,10 @@ import scientifik.kmath.prob.RandomGenerator
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import scientifik.kmath.prob.Sampler
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class PoissonSampler(
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class PoissonSampler private constructor(
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mean: Double
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) : Sampler<Int> {
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private val poissonSamplerDelegate: Sampler<Int>
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init {
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// Delegate all work to specialised samplers.
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poissonSamplerDelegate = of(mean)
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}
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private val poissonSamplerDelegate: Sampler<Int> = of(mean)
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override fun sample(generator: RandomGenerator): Chain<Int> = poissonSamplerDelegate.sample(generator)
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override fun toString(): String = poissonSamplerDelegate.toString()
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@ -22,8 +16,6 @@ class PoissonSampler(
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private const val PIVOT = 40.0
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fun of(mean: Double) =// Each sampler should check the input arguments.
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if (mean < PIVOT) SmallMeanPoissonSampler.of(
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mean
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) else LargeMeanPoissonSampler.of(mean)
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if (mean < PIVOT) SmallMeanPoissonSampler.of(mean) else LargeMeanPoissonSampler.of(mean)
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}
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}
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@ -8,19 +8,13 @@ import scientifik.kmath.prob.chain
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import kotlin.math.ceil
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import kotlin.math.exp
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class SmallMeanPoissonSampler(mean: Double) : Sampler<Int> {
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private val p0: Double
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private val limit: Int
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class SmallMeanPoissonSampler private constructor(mean: Double) : Sampler<Int> {
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private val p0: Double = exp(-mean)
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init {
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require(mean > 0) { "mean is not strictly positive: $mean" }
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p0 = exp(-mean)
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limit = (if (p0 > 0)
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ceil(1000 * mean)
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else
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throw IllegalArgumentException("No p(x=0) probability for mean: $mean")).toInt()
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}
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private val limit: Int = (if (p0 > 0)
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ceil(1000 * mean)
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else
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throw IllegalArgumentException("No p(x=0) probability for mean: $mean")).toInt()
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override fun sample(generator: RandomGenerator): Chain<Int> = generator.chain {
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var n = 0
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@ -37,7 +31,9 @@ class SmallMeanPoissonSampler(mean: Double) : Sampler<Int> {
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override fun toString(): String = "Small Mean Poisson deviate"
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companion object {
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fun of(mean: Double): SmallMeanPoissonSampler =
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SmallMeanPoissonSampler(mean)
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fun of(mean: Double): SmallMeanPoissonSampler {
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require(mean > 0) { "mean is not strictly positive: $mean" }
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return SmallMeanPoissonSampler(mean)
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}
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}
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}
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@ -7,7 +7,7 @@ import scientifik.kmath.prob.Sampler
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import scientifik.kmath.prob.chain
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import kotlin.math.*
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class ZigguratNormalizedGaussianSampler() :
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class ZigguratNormalizedGaussianSampler private constructor() :
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NormalizedGaussianSampler, Sampler<Double> {
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private fun sampleOne(generator: RandomGenerator): Double {
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@ -63,7 +63,6 @@ class ZigguratNormalizedGaussianSampler() :
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private val K: LongArray = LongArray(LEN)
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private val W: DoubleArray = DoubleArray(LEN)
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private val F: DoubleArray = DoubleArray(LEN)
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private fun gauss(x: Double): Double = exp(-0.5 * x * x)
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init {
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// Filling the tables.
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@ -91,5 +90,8 @@ class ZigguratNormalizedGaussianSampler() :
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W[i] = d * ONE_OVER_MAX
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}
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}
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fun of(): ZigguratNormalizedGaussianSampler = ZigguratNormalizedGaussianSampler()
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private fun gauss(x: Double): Double = exp(-0.5 * x * x)
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}
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}
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