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feature/an
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4e34d98dc0 |
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/*
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* Copyright 2018-2024 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.stat
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import kotlinx.coroutines.runBlocking
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import space.kscience.kmath.operations.DoubleField
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import space.kscience.kmath.operations.Float64Field
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import space.kscience.kmath.operations.invoke
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import space.kscience.plotly.Plotly
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import space.kscience.plotly.ResourceLocation
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import space.kscience.plotly.makeFile
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import space.kscience.plotly.models.ScatterMode
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import space.kscience.plotly.scatter
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fun main() {
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fun schaffer(x: Double) = (Float64Field) {
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if (x in -5.0..5.0) 0.5 + ((sin(x pow 2) pow 2) - 0.5) / (1.0 + 0.01 * (x pow 2))
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else Double.POSITIVE_INFINITY
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}
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val optimizer = DoubleField.annealing(targetTemperature = 0.0, maxIterations = 150)
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val optimum = runBlocking {
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optimizer.minimize(1.0, ::schaffer)
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}
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println(optimum)
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val xSpace = DoubleArray(200) { -5.0 + it / 20.0 }
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Plotly.plot {
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scatter {
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name = "Function"
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x.doubles = xSpace
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y.doubles = DoubleArray(200) { schaffer(xSpace[it]) }
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}
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scatter {
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name = "Optimum"
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x.numbers = listOf(optimum.x)
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y.numbers = listOf(optimum.y)
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mode = ScatterMode.markers
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marker.color("red")
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}
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}.makeFile(resourceLocation = ResourceLocation.REMOTE)
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}
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@ -17,6 +17,12 @@ kotlin.sourceSets {
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}
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}
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}
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}
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commonTest {
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dependencies {
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implementation("org.jetbrains.kotlinx:kotlinx-coroutines-test:1.8.1")
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}
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}
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getByName("jvmMain") {
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getByName("jvmMain") {
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dependencies {
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dependencies {
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api("org.apache.commons:commons-rng-sampling:1.3")
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api("org.apache.commons:commons-rng-sampling:1.3")
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@ -0,0 +1,251 @@
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/*
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* Copyright 2018-2024 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.stat
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import space.kscience.kmath.distributions.UniformDistribution
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import space.kscience.kmath.operations.Float64Field
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import space.kscience.kmath.operations.GroupOps
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import space.kscience.kmath.operations.invoke
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import space.kscience.kmath.random.RandomGenerator
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import space.kscience.kmath.samplers.GaussianSampler
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import kotlin.math.exp
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/**
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* Temperature schedule - function that gives temperature on a specific iteration.
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*/
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public fun interface Temperature<T: Comparable<T>> {
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/**
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* Function that gives temperature on a specific iteration.
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*/
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public operator fun invoke(iteration: Int): T
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}
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/**
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* Condition that determines whether a new point should be selected in case it does not
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* deliver a more optimal value that the current point.
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*/
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public fun interface Condition<T: Comparable<T>> {
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/**
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* Whether a point should be selected as a new point.
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*
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* @param currentValue function value in the current point
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* @param proposedValue function value in the point proposed to be chosen as the new point
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* @param temperature temperature on the current iteration
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*/
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public suspend operator fun invoke(currentValue: T, proposedValue: T, temperature: T): Boolean
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}
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/**
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* Result of optimization
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*
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*
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*/
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public data class OptimizationResult<X: Comparable<X>, Y: Comparable<Y>>(
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val y: Y,
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val x: X,
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val iterations: Int,
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val temperature: Y
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)
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private data class AnnealingPoint<X: Comparable<X>, Y: Comparable<Y>>(val x: X, val y: Y)
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/**
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* Simulated annealing - stochastic function optimization.
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*
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* @param targetTemperature temperature required to reach to stop the optimization
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* @param temperature temperature decay law used for optimization. By default,
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* an exponential law is used.
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* @param condition
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* @param sampler sampler used to draw deltas from. By default, an appropriate Gaussian distribution
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* should be used
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* @param generator
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* @param maxIterations
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* @param samplingStride
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* @param algebra
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*/
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public class Annealing<X: Comparable<X>, Y: Comparable<Y>>(
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private val targetTemperature: Y,
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private val temperature: Temperature<Y>,
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private val condition: Condition<Y>,
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sampler: Sampler<X>,
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generator: RandomGenerator,
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private val maxIterations: Int? = null,
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private val samplingStride: Int = 1,
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private val algebra: GroupOps<X>
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) {
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init {
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require(samplingStride >= 1)
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maxIterations?.let {
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require(maxIterations > 0)
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}
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}
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private val samples = sampler.sample(generator)
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/**
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* A single optimization iteration
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*/
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private tailrec suspend fun optimizeInner(
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f: (X) -> Y,
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iteration: Int,
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current: AnnealingPoint<X, Y>,
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best: AnnealingPoint<X, Y>
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): OptimizationResult<X, Y> {
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val temp = temperature(iteration)
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maxIterations?.let {
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if (iteration >= maxIterations) return OptimizationResult(current.y, current.x, iteration, temp)
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}
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if (temp <= targetTemperature) return OptimizationResult(current.y, current.x, iteration, temp)
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var xProposed = current.x
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repeat(samplingStride) { xProposed = (algebra) { samples.next() + xProposed } }
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val yProposed = f(xProposed)
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val next = when {
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// In case a condition different from the standard Gibbs is used
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yProposed < current.y -> AnnealingPoint(xProposed, f(xProposed))
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(condition(current.y, yProposed, temp)) -> AnnealingPoint(xProposed, f(xProposed))
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else -> current
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}
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val newBest = if (next.y < best.y) next else best
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return optimizeInner(f, iteration + 1, next, newBest)
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}
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/**
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* Minimize function using parameters defined when the optimizer is constructed.
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*
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* @param x0 initial point for optimization
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* @param function objective function
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*
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* @return optimization result, see documentation entry for [OptimizationResult]
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*/
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public suspend fun minimize(x0: X, function: (X) -> Y): OptimizationResult<X, Y> {
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val initial = AnnealingPoint(x0, function(x0))
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return optimizeInner(function, iteration = 0, initial, best = initial)
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}
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}
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/**
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* Retrieve an [Annealing] optimizer for this algebra.
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*
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* @param targetTemperature temperature required to reach to stop the optimization
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* @param maxIterations (optional) number of iterations required to stop the algorithm.
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* If `null`, [targetTemperature] solely is used as a stoppage criterion.
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* @param samplingStride
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* @param temperature temperature decay function used for optimization. By default,
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* an exponential law is used.
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* @param condition
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* @param sampler sampler used to draw deltas from. By default, an appropriate Gaussian distribution
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* should be used
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* @param generator (optional) random generator used by the sampler.
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* By default, [RandomGenerator.default] is used.
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*/
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public fun <X: Comparable<X>, Y: Comparable<Y>> GroupOps<X>.annealing(
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targetTemperature: Y,
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maxIterations: Int? = null,
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samplingStride: Int = 1,
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temperature: Temperature<Y>,
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condition: Condition<Y>,
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sampler: Sampler<X>,
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generator: RandomGenerator = RandomGenerator.default,
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): Annealing<X, Y> = Annealing(
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targetTemperature,
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temperature,
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condition,
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sampler,
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generator,
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maxIterations,
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samplingStride,
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algebra = this
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)
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/**
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* Retrieve an [Annealing] optimizer for Double field.
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*
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* @param targetTemperature temperature required to reach to stop the optimization
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* @param maxIterations (optional) number of iterations required to stop the algorithm.
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* If `null`, [targetTemperature] solely is used as a stoppage criterion.
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* @param samplingStride
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* @param temperature temperature decay function used for optimization. By default,
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* an exponential law is used.
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* @param condition
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* @param sampler sampler used to draw deltas from. By default, an appropriate Gaussian distribution
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* should be used
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* @param generator (optional) random generator used by the sampler.
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* By default, [RandomGenerator.default] is used.
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*/
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public fun GroupOps<Double>.annealing(
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targetTemperature: Double,
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maxIterations: Int? = null,
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samplingStride: Int = 1,
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temperature: Temperature<Double> = BoltzmannTemp(),
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condition: Condition<Double> = GibbsCondition(),
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sampler: Sampler<Double> = GaussianSampler(0.0, 1.0),
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generator: RandomGenerator = RandomGenerator.default,
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): Annealing<Double, Double> = Annealing(
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targetTemperature,
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temperature,
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condition,
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sampler,
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generator,
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maxIterations,
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samplingStride,
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algebra = this
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)
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/**
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* Temperature schedule that uses the following formula:
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* `tk = t0 - slope * k`,
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* where `k` is the iteration number
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*
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* @param t0 Initial temperature (`k = 0`)
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* @param slope Slope of the temperature decay line
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*/
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public class LinearTemp(
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private val t0: Double = 1000.0,
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private val slope: Double = 1.0,
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): Temperature<Double> {
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init {
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require(slope > 0.0)
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}
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override fun invoke(iteration: Int): Double = t0 - slope * iteration.toDouble()
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}
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/**
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* Temperature schedule that uses the following formula:
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* `tk = t0 / exp(rate * k)`,
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* where `k` is the iteration number.
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*
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* @param t0 Initial temperature (`k = 0`)
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* @param rate Temperature decay rate
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*/
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public class BoltzmannTemp(
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private val t0: Double = 1000.0,
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private val rate: Double = 1.0
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): Temperature<Double> {
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init {
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require(t0 > 0.0)
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require(rate > 0.0)
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}
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override fun invoke(iteration: Int): Double = t0 / exp(iteration * rate)
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}
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/**
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* Jump condition that uses Gibbs distribution formula and uniform sampling to determine
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* the next point. If value `exp(-(y{k} - y{k-1}) / T)` is greater than the sampled value,
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* the new point is taken.
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*/
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public class GibbsCondition: Condition<Double> {
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private val distribution = UniformDistribution(0.0..1.0)
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override suspend fun invoke(
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currentValue: Double,
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proposedValue: Double,
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temperature: Double
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): Boolean = (Float64Field) {
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exp(-(proposedValue - currentValue) / temperature) > distribution.next(RandomGenerator.default)
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|
}
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}
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@ -0,0 +1,108 @@
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|
/*
|
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|
* Copyright 2018-2024 KMath contributors.
|
||||||
|
* 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.stat
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import kotlinx.coroutines.test.runTest
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|
import space.kscience.kmath.operations.Float64Field
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|
import space.kscience.kmath.operations.Float64Field.cos
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import space.kscience.kmath.operations.invoke
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import kotlin.math.E
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import kotlin.math.PI
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import kotlin.math.exp
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import kotlin.math.sqrt
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import kotlin.random.Random
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import kotlin.test.Test
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import kotlin.test.assertTrue
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|
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class TestAnnealing {
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|
companion object {
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fun rastrigin(x: Double, a: Double = 10.0) =
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|
if (x in -5.0..5.0) a + x * x - a * cos(2 * PI * x) else Double.POSITIVE_INFINITY
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|
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|
fun ackley(x: Double) = if (x in -5.0..5.0) {
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|
-20.0 * exp(-0.2 * sqrt(0.5 * x * x)) - exp(2 * cos(2 * PI * x)) + E + 20.0
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|
} else {
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|
Double.POSITIVE_INFINITY
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|
}
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|
|
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|
fun schaffer(x: Double) = (Float64Field) {
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|
if (x in -5.0..5.0) 0.5 + ((sin(x pow 2) pow 2) - 0.5) / (1.0 + 0.01 * (x pow 2))
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else Double.POSITIVE_INFINITY
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}
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|
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|
fun melon(x: Double) =
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if (x in -4.0..4.0) (x - 1.0) * (x + 3.0) * (x - 3.0) * (x + 2.0) else Double.POSITIVE_INFINITY
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|
|
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|
suspend fun countSuccessRate(
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|
function: (Double) -> Double,
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|
objective: Double = 0.0,
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|
tolerance: Double = 0.1,
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|
iterations: Int = 150
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|
): Int = (Float64Field) {
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|
val optimizer = annealing(
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|
targetTemperature = 0.0,
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|
maxIterations = iterations,
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|
temperature = BoltzmannTemp(),
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condition = GibbsCondition()
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|
)
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val initial = { ((Random.nextDouble() - 0.5) * 6.0).coerceIn(-5.0..5.0) }
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val results = List(100) { optimizer.minimize(initial()) { x -> function(x) }.x }
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return results.count { it in objective - tolerance .. objective + tolerance }
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|
}
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||||||
|
}
|
||||||
|
|
||||||
|
|
||||||
|
@Test
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||||||
|
fun testRastrigin() = runTest {
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|
val successRate = countSuccessRate(::rastrigin)
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|
println("Rastrigin success rate: $successRate%")
|
||||||
|
assertTrue { successRate >= 98 }
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||||||
|
}
|
||||||
|
|
||||||
|
@Test
|
||||||
|
fun testAckley() = runTest {
|
||||||
|
val successRate = countSuccessRate(::ackley)
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||||||
|
println("Ackley success rate: $successRate%")
|
||||||
|
assertTrue { successRate >= 98 }
|
||||||
|
}
|
||||||
|
|
||||||
|
@Test
|
||||||
|
fun testSchaffer() = runTest {
|
||||||
|
val successRate = countSuccessRate(::schaffer, iterations = 180)
|
||||||
|
println("Schaffer success rate: $successRate%")
|
||||||
|
assertTrue { successRate >= 98 }
|
||||||
|
}
|
||||||
|
|
||||||
|
@Test
|
||||||
|
fun testTailCallOptimization() = runTest {
|
||||||
|
(Float64Field) {
|
||||||
|
val optimizer = annealing(
|
||||||
|
targetTemperature = -1.0,
|
||||||
|
maxIterations = 1000000,
|
||||||
|
temperature = BoltzmannTemp(),
|
||||||
|
condition = GibbsCondition()
|
||||||
|
)
|
||||||
|
val result = optimizer.minimize(3.0) { x -> rastrigin(x) }
|
||||||
|
println("Sustained ${result.iterations} iterations without stack overflow")
|
||||||
|
}
|
||||||
|
}
|
||||||
|
|
||||||
|
@Test
|
||||||
|
fun testGreediness() = runTest {
|
||||||
|
(Float64Field) {
|
||||||
|
val optimizer = annealing(
|
||||||
|
targetTemperature = -1.0,
|
||||||
|
maxIterations = 100,
|
||||||
|
temperature = { 0.0 },
|
||||||
|
condition = GibbsCondition()
|
||||||
|
)
|
||||||
|
val results = List(100) { optimizer.minimize(-3.2, ::melon).x }
|
||||||
|
val rate = results.count { it in -2.6..-2.5}
|
||||||
|
println("Greediness rate: $rate")
|
||||||
|
assertTrue { rate >= 95 }
|
||||||
|
}
|
||||||
|
}
|
||||||
|
}
|
Loading…
Reference in New Issue
Block a user