0.3.1 #514
@ -19,9 +19,9 @@ import org.ejml.sparse.csc.factory.DecompositionFactory_DSCC
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import org.ejml.sparse.csc.factory.DecompositionFactory_FSCC
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import org.ejml.sparse.csc.factory.LinearSolverFactory_DSCC
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import org.ejml.sparse.csc.factory.LinearSolverFactory_FSCC
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import space.kscience.kmath.UnstableKMathAPI
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import space.kscience.kmath.linear.*
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import space.kscience.kmath.linear.Matrix
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import space.kscience.kmath.UnstableKMathAPI
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import space.kscience.kmath.nd.StructureFeature
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import space.kscience.kmath.operations.DoubleField
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import space.kscience.kmath.operations.FloatField
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@ -0,0 +1,24 @@
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/*
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* Copyright 2018-2023 KMath contributors.
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* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
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*/
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package space.kscience.kmath.distributions
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import space.kscience.kmath.operations.DoubleField.pow
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import kotlin.math.PI
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import kotlin.math.absoluteValue
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import kotlin.math.exp
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/**
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* Zelen & Severo approximation for the standard normal CDF.
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* The error is bounded by 7.5 * 10e-8.
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* */
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public fun zSNormalCDF(x: Double): Double {
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val t = 1 / (1 + 0.2316419 * x.absoluteValue)
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val summ = 0.319381530*t - 0.356563782*t.pow(2) + 1.781477937*t.pow(3) - 1.821255978*t.pow(4) + 1.330274429*t.pow(5)
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val temp = summ * exp(-x.absoluteValue.pow(2) / 2) / (2 * PI).pow(0.5)
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return if (x >= 0) 1 - temp else temp
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}
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@ -191,7 +191,7 @@ public open class SeriesAlgebra<T, out A : Ring<T>, out BA : BufferAlgebra<T, A>
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crossinline operation: A.(left: T, right: T) -> T,
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): Series<T> {
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val newRange = offsetIndices.intersect(other.offsetIndices)
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return seriesByOffset(startOffset = newRange.first, size = newRange.last - newRange.first) { offset ->
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return seriesByOffset(startOffset = newRange.first, size = newRange.last + 1 - newRange.first) { offset ->
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elementAlgebra.operation(
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getByOffset(offset),
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other.getByOffset(offset)
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@ -199,12 +199,25 @@ public open class SeriesAlgebra<T, out A : Ring<T>, out BA : BufferAlgebra<T, A>
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}
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}
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/**
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* Zip buffer with itself, but shifted
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* */
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public inline fun Buffer<T>.zipWithShift(
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shift: Int = 1,
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crossinline operation: A.(left: T, right: T) -> T
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): Buffer<T> {
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val shifted = this.moveBy(shift)
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return zip(shifted, operation)
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}
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override fun Buffer<T>.unaryMinus(): Buffer<T> = map { -it }
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override fun add(left: Buffer<T>, right: Buffer<T>): Series<T> = left.zip(right) { l, r -> l + r }
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override fun multiply(left: Buffer<T>, right: Buffer<T>): Buffer<T> = left.zip(right) { l, r -> l * r }
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public fun Buffer<T>.difference(shift: Int=1): Buffer<T> = this.zipWithShift(shift) {l, r -> r - l}
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public companion object
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}
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@ -0,0 +1,72 @@
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/*
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* Copyright 2018-2023 KMath contributors.
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* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
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*/
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package space.kscience.kmath.series
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import space.kscience.kmath.distributions.zSNormalCDF
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import space.kscience.kmath.operations.DoubleField.pow
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import space.kscience.kmath.operations.fold
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import kotlin.math.absoluteValue
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/**
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* Container class for Variance Ratio Test result:
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* ratio itself, corresponding Z-score, also it's p-value
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* **/
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public data class VarianceRatioTestResult(val varianceRatio: Double=1.0, val zScore: Double=0.0, val pValue: Double=0.5)
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/**
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* Calculates the Z-statistic and the p-value for the Lo and MacKinlay's Variance Ratio test (1987)
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* under Homoscedastic or Heteroscedstic assumptions
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* with two-sided p-value test
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* https://ssrn.com/abstract=346975
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* **/
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public fun SeriesAlgebra<Double, *, *, *>.varianceRatioTest(series: Series<Double>, shift: Int, homoscedastic: Boolean=true): VarianceRatioTestResult {
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require(shift > 1) {"Shift must be greater than one"}
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require(shift < series.size) {"Shift must be smaller than sample size"}
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val sum = { x: Double, y: Double -> x + y }
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val mean = series.fold(0.0, sum) / series.size
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val demeanedSquares = series.map { (it - mean).pow(2) }
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val variance = demeanedSquares.fold(0.0, sum)
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if (variance == 0.0) return VarianceRatioTestResult()
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var seriesAgg = series
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for (i in 1..<shift) {
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seriesAgg = seriesAgg.zip(series.moveTo(i)) { v1, v2 -> v1 + v2 }
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}
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val demeanedSquaresAgg = seriesAgg.map { (it - shift * mean).pow(2) }
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val varianceAgg = demeanedSquaresAgg.fold(0.0, sum)
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val varianceRatio =
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varianceAgg * (series.size.toDouble() - 1) / variance / (series.size.toDouble() - shift.toDouble() + 1) / (1 - shift.toDouble()/series.size.toDouble()) / shift.toDouble()
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// calculating asymptotic variance
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val phi = if (homoscedastic) { // under homoscedastic null hypothesis
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2 * (2 * shift - 1.0) * (shift - 1.0) / (3 * shift * series.size)
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} else { // under heteroscedastic null hypothesis
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var accumulator = 0.0
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for (j in 1..<shift) {
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val temp = demeanedSquares
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val delta = series.size * temp.zipWithShift(j) { v1, v2 -> v1 * v2 }.fold(0.0, sum) / variance.pow(2)
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accumulator += delta * 4 * (shift - j).toDouble().pow(2) / shift.toDouble().pow(2)
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}
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accumulator
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}
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val zScore = (varianceRatio - 1) / phi.pow(0.5)
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val pValue = 2*(1 - zSNormalCDF(zScore.absoluteValue))
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return VarianceRatioTestResult(varianceRatio, zScore, pValue)
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}
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@ -0,0 +1,72 @@
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/*
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* Copyright 2018-2023 KMath contributors.
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* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
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*/
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package space.kscience.kmath.series
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import space.kscience.kmath.operations.algebra
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import space.kscience.kmath.operations.bufferAlgebra
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import kotlin.math.PI
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import kotlin.test.Test
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import kotlin.test.assertEquals
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class TestVarianceRatioTest {
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@Test
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fun monotonicData() {
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with(Double.algebra.bufferAlgebra.seriesAlgebra()) {
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val monotonicData = series(10) { it * 1.0 }
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val resultHomo = varianceRatioTest(monotonicData, 2, homoscedastic = true)
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assertEquals(1.818181, resultHomo.varianceRatio, 1e-6)
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// homoscedastic zScore
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assertEquals(2.587318, resultHomo.zScore, 1e-6)
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assertEquals(.0096, resultHomo.pValue, 1e-4)
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val resultHetero = varianceRatioTest(monotonicData, 2, homoscedastic = false)
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// heteroscedastic zScore
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assertEquals(0.819424, resultHetero.zScore, 1e-6)
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assertEquals(.4125, resultHetero.pValue, 1e-4)
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}
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}
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@Test
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fun volatileData() {
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with(Double.algebra.bufferAlgebra.seriesAlgebra()) {
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val volatileData = series(10) { sin(PI * it + PI/2) + 1.0}
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val resultHomo = varianceRatioTest(volatileData, 2)
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assertEquals(0.0, resultHomo.varianceRatio, 1e-6)
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// homoscedastic zScore
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assertEquals(-3.162277, resultHomo.zScore, 1e-6)
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assertEquals(.0015, resultHomo.pValue, 1e-4)
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val resultHetero = varianceRatioTest(volatileData, 2, homoscedastic = false)
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// heteroscedastic zScore
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assertEquals(-1.0540925, resultHetero.zScore, 1e-6)
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assertEquals(.2918, resultHetero.pValue, 1e-4)
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}
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}
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@Test
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fun negativeData() {
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with(Double.algebra.bufferAlgebra.seriesAlgebra()) {
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val negativeData = series(10) { sin(it * 1.2)}
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val resultHomo = varianceRatioTest(negativeData, 3)
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assertEquals(1.240031, resultHomo.varianceRatio, 1e-6)
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// homoscedastic zScore
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assertEquals(0.509183, resultHomo.zScore, 1e-6)
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val resultHetero = varianceRatioTest(negativeData, 3, homoscedastic = false)
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// heteroscedastic zScore
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assertEquals(0.209202, resultHetero.zScore, 1e-6)
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}
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}
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@Test
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fun zeroVolatility() {
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with(Double.algebra.bufferAlgebra.seriesAlgebra()) {
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val zeroVolData = series(10) { 0.0 }
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val result = varianceRatioTest(zeroVolData, 4)
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assertEquals(1.0, result.varianceRatio, 1e-6)
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assertEquals(0.0, result.zScore, 1e-6)
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assertEquals(0.5, result.pValue, 1e-4)
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}
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}
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}
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