Improved peak finding algorithm
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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.series
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public enum class PlateauEdgePolicy {
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/**
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* Midpoints of plateau are returned, edges not belonging to a plateau are ignored.
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*
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* A midpoint is the index closest to the average of indices of the left and right edges
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* of the plateau:
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*
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* `val midpoint = ((leftEdge + rightEdge) / 2).toInt`
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*/
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AVERAGE,
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/**
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* Both left and right edges are returned.
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*/
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KEEP_ALL_EDGES,
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/**
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* Only right edges are returned.
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*/
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KEEP_RIGHT_EDGES,
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/**
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* Only left edges are returned.
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*/
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KEEP_LEFT_EDGES,
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/**
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* Ignore plateau, only peaks (troughs) with values strictly greater (less)
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* than values of the adjacent points are returned.
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*/
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IGNORE
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}
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public fun <T: Comparable<T>> Series<T>.peaks(
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plateauEdgePolicy: PlateauEdgePolicy = PlateauEdgePolicy.AVERAGE
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): List<Int> = findPeaks(plateauEdgePolicy, { other -> this > other }, { other -> this >= other })
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public fun <T: Comparable<T>> Series<T>.troughs(
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plateauEdgePolicy: PlateauEdgePolicy = PlateauEdgePolicy.AVERAGE
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): List<Int> = findPeaks(plateauEdgePolicy, { other -> this < other }, { other -> this <= other })
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private fun <T: Comparable<T>> Series<T>.findPeaks(
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plateauPolicy: PlateauEdgePolicy = PlateauEdgePolicy.AVERAGE,
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cmpStrong: T.(T) -> Boolean,
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cmpWeak: T.(T) -> Boolean
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): List<Int> {
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require(size >= 3) { "Expected series with at least 3 elements, but got $size elements" }
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if (plateauPolicy == PlateauEdgePolicy.AVERAGE) return peaksWithPlateau(cmpStrong)
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fun peakCriterion(left: T, middle: T, right: T): Boolean = when(plateauPolicy) {
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PlateauEdgePolicy.KEEP_LEFT_EDGES -> middle.cmpStrong(left) && middle.cmpWeak(right)
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PlateauEdgePolicy.KEEP_RIGHT_EDGES -> middle.cmpWeak(left) && middle.cmpStrong(right)
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PlateauEdgePolicy.KEEP_ALL_EDGES ->
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(middle.cmpStrong(left) && middle.cmpWeak(right)) || (middle.cmpWeak(left) && middle.cmpStrong(right))
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else -> middle.cmpStrong(right) && middle.cmpStrong(left)
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}
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val indices = mutableListOf<Int>()
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for (index in 1 .. size - 2) {
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val left = this[index - 1]
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val middle = this[index]
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val right = this[index + 1]
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if (peakCriterion(left, middle, right)) indices.add(index)
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}
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return indices
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}
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private fun <T: Comparable<T>> Series<T>.peaksWithPlateau(cmpStrong: T.(T) -> Boolean): List<Int> {
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val peaks = mutableListOf<Int>()
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tailrec fun peaksPlateauInner(index: Int) {
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val nextUnequal = (index + 1 ..< size).firstOrNull { this[it] != this[index] } ?: (size - 1)
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val newIndex = if (this[index].cmpStrong(this[index - 1]) && this[index].cmpStrong(this[nextUnequal])) {
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peaks.add((index + nextUnequal) / 2)
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nextUnequal
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} else index + 1
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if (newIndex < size - 1) peaksPlateauInner(newIndex)
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}
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peaksPlateauInner(1)
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return peaks
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}
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