Dev #194
@ -7,6 +7,6 @@ dependencies {
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api(project(":kmath-core"))
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api(project(":kmath-core"))
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api(project(":kmath-coroutines"))
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api(project(":kmath-coroutines"))
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api(project(":kmath-prob"))
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api(project(":kmath-prob"))
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// api(project(":kmath-functions"))
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api(project(":kmath-functions"))
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api("org.apache.commons:commons-math3:3.6.1")
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api("org.apache.commons:commons-math3:3.6.1")
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}
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}
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@ -46,7 +46,7 @@ internal class OptimizeTest {
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val sigma = 1.0
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val sigma = 1.0
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val generator = Distribution.normal(0.0, sigma)
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val generator = Distribution.normal(0.0, sigma)
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val chain = generator.sample(RandomGenerator.default(1126))
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val chain = generator.sample(RandomGenerator.default(112667))
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val x = (1..100).map { it.toDouble() }
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val x = (1..100).map { it.toDouble() }
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val y = x.map { it ->
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val y = x.map { it ->
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it.pow(2) + it + 1 + chain.nextDouble()
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it.pow(2) + it + 1 + chain.nextDouble()
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@ -54,7 +54,8 @@ internal class OptimizeTest {
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val yErr = x.map { sigma }
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val yErr = x.map { sigma }
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with(CMFit) {
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with(CMFit) {
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val chi2 = chiSquared(x.asBuffer(), y.asBuffer(), yErr.asBuffer()) { x ->
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val chi2 = chiSquared(x.asBuffer(), y.asBuffer(), yErr.asBuffer()) { x ->
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bind(a) * x.pow(2) + bind(b) * x + bind(c)
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val cWithDefault = bindOrNull(c)?: one
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bind(a) * x.pow(2) + bind(b) * x + cWithDefault
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}
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}
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val result = chi2.minimize(a to 1.5, b to 0.9, c to 1.0)
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val result = chi2.minimize(a to 1.5, b to 0.9, c to 1.0)
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@ -8,13 +8,13 @@ import kotlin.contracts.contract
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import kotlin.math.max
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import kotlin.math.max
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import kotlin.math.pow
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import kotlin.math.pow
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// TODO make `inline`, when KT-41771 gets fixed
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/**
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/**
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* Polynomial coefficients without fixation on specific context they are applied to
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* Polynomial coefficients without fixation on specific context they are applied to
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* @param coefficients constant is the leftmost coefficient
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* @param coefficients constant is the leftmost coefficient
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*/
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*/
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public inline class Polynomial<T : Any>(public val coefficients: List<T>)
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public inline class Polynomial<T : Any>(public val coefficients: List<T>)
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@Suppress("FunctionName")
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public fun <T : Any> Polynomial(vararg coefficients: T): Polynomial<T> = Polynomial(coefficients.toList())
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public fun <T : Any> Polynomial(vararg coefficients: T): Polynomial<T> = Polynomial(coefficients.toList())
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public fun Polynomial<Double>.value(): Double = coefficients.reduceIndexed { index, acc, d -> acc + d.pow(index) }
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public fun Polynomial<Double>.value(): Double = coefficients.reduceIndexed { index, acc, d -> acc + d.pow(index) }
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@ -33,14 +33,6 @@ public fun <T : Any, C : Ring<T>> Polynomial<T>.value(ring: C, arg: T): T = ring
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res
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res
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}
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}
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/**
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* Represent a polynomial as a context-dependent function
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*/
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public fun <T : Any, C : Ring<T>> Polynomial<T>.asMathFunction(): MathFunction<T, C, T> =
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object : MathFunction<T, C, T> {
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override fun C.invoke(arg: T): T = value(this, arg)
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}
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/**
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/**
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* Represent the polynomial as a regular context-less function
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* Represent the polynomial as a regular context-less function
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*/
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*/
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@ -49,7 +41,7 @@ public fun <T : Any, C : Ring<T>> Polynomial<T>.asFunction(ring: C): (T) -> T =
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/**
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/**
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* An algebra for polynomials
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* An algebra for polynomials
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*/
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*/
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public class PolynomialSpace<T : Any, C : Ring<T>>(public val ring: C) : Space<Polynomial<T>> {
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public class PolynomialSpace<T : Any, C : Ring<T>>(private val ring: C) : Space<Polynomial<T>> {
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public override val zero: Polynomial<T> = Polynomial(emptyList())
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public override val zero: Polynomial<T> = Polynomial(emptyList())
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public override fun add(a: Polynomial<T>, b: Polynomial<T>): Polynomial<T> {
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public override fun add(a: Polynomial<T>, b: Polynomial<T>): Polynomial<T> {
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@ -1,34 +0,0 @@
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package kscience.kmath.functions
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import kscience.kmath.operations.Algebra
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import kscience.kmath.operations.RealField
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// TODO make fun interface when KT-41770 is fixed
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/**
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* A regular function that could be called only inside specific algebra context
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* @param T source type
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* @param C source algebra constraint
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* @param R result type
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*/
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public /*fun*/ interface MathFunction<T, C : Algebra<T>, R> {
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public operator fun C.invoke(arg: T): R
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}
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public fun <R> MathFunction<Double, RealField, R>.invoke(arg: Double): R = RealField.invoke(arg)
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/**
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* A suspendable function defined in algebraic context
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*/
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// TODO make fun interface, when the new JVM IR is enabled
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public interface SuspendableMathFunction<T, C : Algebra<T>, R> {
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public suspend operator fun C.invoke(arg: T): R
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}
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public suspend fun <R> SuspendableMathFunction<Double, RealField, R>.invoke(arg: Double): R = RealField.invoke(arg)
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/**
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* A parametric function with parameter
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*/
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public fun interface ParametricFunction<T, P, C : Algebra<T>> {
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public operator fun C.invoke(arg: T, parameter: P): T
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}
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36
kmath-prob/src/commonMain/kotlin/kscience/kmath/prob/Fit.kt
Normal file
36
kmath-prob/src/commonMain/kotlin/kscience/kmath/prob/Fit.kt
Normal file
@ -0,0 +1,36 @@
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package kscience.kmath.prob
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import kscience.kmath.expressions.AutoDiffProcessor
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import kscience.kmath.expressions.DifferentiableExpression
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import kscience.kmath.expressions.ExpressionAlgebra
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import kscience.kmath.operations.ExtendedField
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import kscience.kmath.structures.Buffer
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import kscience.kmath.structures.indices
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public object Fit {
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/**
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* Generate a chi squared expression from given x-y-sigma data and inline model. Provides automatic differentiation
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*/
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public fun <T : Any, I : Any, A> chiSquared(
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autoDiff: AutoDiffProcessor<T, I, A>,
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x: Buffer<T>,
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y: Buffer<T>,
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yErr: Buffer<T>,
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model: A.(I) -> I,
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): DifferentiableExpression<T> where A : ExtendedField<I>, A : ExpressionAlgebra<T, I> {
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require(x.size == y.size) { "X and y buffers should be of the same size" }
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require(y.size == yErr.size) { "Y and yErr buffer should of the same size" }
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return autoDiff.process {
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var sum = zero
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x.indices.forEach {
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val xValue = const(x[it])
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val yValue = const(y[it])
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val yErrValue = const(yErr[it])
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val modelValue = model(xValue)
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sum += ((yValue - modelValue) / yErrValue).pow(2)
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}
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sum
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}
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}
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}
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@ -0,0 +1,91 @@
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package kscience.kmath.commons.optimization
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import kscience.kmath.expressions.DifferentiableExpression
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import kscience.kmath.expressions.Expression
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import kscience.kmath.expressions.Symbol
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public interface OptimizationFeature
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public class OptimizationResult<T>(
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public val point: Map<Symbol, T>,
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public val value: T,
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public val features: Set<OptimizationFeature> = emptySet(),
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) {
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override fun toString(): String {
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return "OptimizationResult(point=$point, value=$value)"
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}
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}
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public operator fun <T> OptimizationResult<T>.plus(
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feature: OptimizationFeature,
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): OptimizationResult<T> = OptimizationResult(point, value, features + feature)
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/**
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* A configuration builder for optimization problem
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*/
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public interface OptimizationProblem<T : Any> {
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/**
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* Define the initial guess for the optimization problem
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*/
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public fun initialGuess(map: Map<Symbol, T>): Unit
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/**
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* Set an objective function expression
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*/
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public fun expression(expression: Expression<T>): Unit
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/**
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* Set a differentiable expression as objective function as function and gradient provider
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*/
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public fun diffExpression(expression: DifferentiableExpression<T>): Unit
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/**
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* Update the problem from previous optimization run
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*/
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public fun update(result: OptimizationResult<T>)
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/**
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* Make an optimization run
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*/
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public fun optimize(): OptimizationResult<T>
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}
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public interface OptimizationProblemFactory<T : Any, out P : OptimizationProblem<T>> {
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public fun build(symbols: List<Symbol>): P
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}
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public operator fun <T : Any, P : OptimizationProblem<T>> OptimizationProblemFactory<T, P>.invoke(
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symbols: List<Symbol>,
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block: P.() -> Unit,
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): P = build(symbols).apply(block)
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/**
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* Optimize expression without derivatives using specific [OptimizationProblemFactory]
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*/
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public fun <T : Any, F : OptimizationProblem<T>> Expression<T>.optimizeWith(
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factory: OptimizationProblemFactory<T, F>,
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vararg symbols: Symbol,
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configuration: F.() -> Unit,
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): OptimizationResult<T> {
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require(symbols.isNotEmpty()) { "Must provide a list of symbols for optimization" }
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val problem = factory(symbols.toList(),configuration)
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problem.expression(this)
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return problem.optimize()
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}
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/**
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* Optimize differentiable expression using specific [OptimizationProblemFactory]
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*/
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public fun <T : Any, F : OptimizationProblem<T>> DifferentiableExpression<T>.optimizeWith(
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factory: OptimizationProblemFactory<T, F>,
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vararg symbols: Symbol,
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configuration: F.() -> Unit,
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): OptimizationResult<T> {
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require(symbols.isNotEmpty()) { "Must provide a list of symbols for optimization" }
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val problem = factory(symbols.toList(), configuration)
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problem.diffExpression(this)
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return problem.optimize()
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}
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Loading…
Reference in New Issue
Block a user