Fix Mean bug
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abae29bbed
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fd8a61c852
@ -14,7 +14,6 @@ import space.kscience.kmath.ejml.EjmlLinearSpaceDDRM
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import space.kscience.kmath.linear.invoke
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import space.kscience.kmath.linear.invoke
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import space.kscience.kmath.linear.linearSpace
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import space.kscience.kmath.linear.linearSpace
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import space.kscience.kmath.operations.DoubleField
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import space.kscience.kmath.operations.DoubleField
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import space.kscience.kmath.operations.algebra
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import space.kscience.kmath.structures.Buffer
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import space.kscience.kmath.structures.Buffer
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import kotlin.random.Random
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import kotlin.random.Random
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@ -25,11 +24,11 @@ internal class DotBenchmark {
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const val dim = 1000
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const val dim = 1000
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//creating invertible matrix
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//creating invertible matrix
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val matrix1 = Double.algebra.linearSpace.buildMatrix(dim, dim) { i, j ->
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val matrix1 = DoubleField.linearSpace.buildMatrix(dim, dim) { _, _ ->
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if (i <= j) random.nextDouble() else 0.0
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random.nextDouble()
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}
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}
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val matrix2 = Double.algebra.linearSpace.buildMatrix(dim, dim) { i, j ->
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val matrix2 = DoubleField.linearSpace.buildMatrix(dim, dim) { _, _ ->
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if (i <= j) random.nextDouble() else 0.0
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random.nextDouble()
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}
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}
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val cmMatrix1 = CMLinearSpace { matrix1.toCM() }
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val cmMatrix1 = CMLinearSpace { matrix1.toCM() }
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@ -65,7 +64,7 @@ internal class DotBenchmark {
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}
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}
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@Benchmark
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@Benchmark
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fun doubleDot(blackhole: Blackhole) = with(Double.algebra.linearSpace) {
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fun doubleDot(blackhole: Blackhole) = with(DoubleField.linearSpace) {
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blackhole.consume(matrix1 dot matrix2)
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blackhole.consume(matrix1 dot matrix2)
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}
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}
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}
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}
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@ -75,8 +75,9 @@ internal class ExpressionsInterpretersBenchmark {
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private val algebra = DoubleField
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private val algebra = DoubleField
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private const val times = 1_000_000
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private const val times = 1_000_000
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private val functional = DoubleField.expressionInExtendedField {
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private val functional = DoubleField.expression {
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bindSymbol(x) * number(2.0) + number(2.0) / bindSymbol(x) - number(16.0) / sin(bindSymbol(x))
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val x = bindSymbol(Symbol.x)
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x * number(2.0) + 2.0 / x - 16.0 / sin(x)
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}
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}
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private val node = MstExtendedField {
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private val node = MstExtendedField {
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@ -192,3 +192,7 @@ public inline fun <T, A : Field<T>> A.expressionInField(
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public inline fun <T, A : ExtendedField<T>> A.expressionInExtendedField(
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public inline fun <T, A : ExtendedField<T>> A.expressionInExtendedField(
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block: FunctionalExpressionExtendedField<T, A>.() -> Expression<T>,
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block: FunctionalExpressionExtendedField<T, A>.() -> Expression<T>,
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): Expression<T> = FunctionalExpressionExtendedField(this).block()
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): Expression<T> = FunctionalExpressionExtendedField(this).block()
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public inline fun DoubleField.expression(
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block: FunctionalExpressionExtendedField<Double, DoubleField>.() -> Expression<Double>,
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): Expression<Double> = FunctionalExpressionExtendedField(this).block()
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@ -13,7 +13,6 @@ import space.kscience.kmath.operations.DoubleBufferOperations
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import space.kscience.kmath.operations.DoubleField
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import space.kscience.kmath.operations.DoubleField
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import space.kscience.kmath.structures.Buffer
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import space.kscience.kmath.structures.Buffer
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import space.kscience.kmath.structures.DoubleBuffer
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import space.kscience.kmath.structures.DoubleBuffer
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import space.kscience.kmath.structures.indices
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public object DoubleLinearSpace : LinearSpace<Double, DoubleField> {
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public object DoubleLinearSpace : LinearSpace<Double, DoubleField> {
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@ -30,7 +29,6 @@ public object DoubleLinearSpace : LinearSpace<Double, DoubleField> {
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initializer: DoubleField.(i: Int, j: Int) -> Double
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initializer: DoubleField.(i: Int, j: Int) -> Double
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): Matrix<Double> = ndRing(rows, columns).produce { (i, j) -> DoubleField.initializer(i, j) }.as2D()
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): Matrix<Double> = ndRing(rows, columns).produce { (i, j) -> DoubleField.initializer(i, j) }.as2D()
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override fun buildVector(size: Int, initializer: DoubleField.(Int) -> Double): DoubleBuffer =
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override fun buildVector(size: Int, initializer: DoubleField.(Int) -> Double): DoubleBuffer =
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DoubleBuffer(size) { DoubleField.initializer(it) }
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DoubleBuffer(size) { DoubleField.initializer(it) }
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@ -50,9 +48,9 @@ public object DoubleLinearSpace : LinearSpace<Double, DoubleField> {
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// Create a continuous in-memory representation of this vector for better memory layout handling
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// Create a continuous in-memory representation of this vector for better memory layout handling
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private fun Buffer<Double>.linearize() = if (this is DoubleBuffer) {
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private fun Buffer<Double>.linearize() = if (this is DoubleBuffer) {
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this
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this.array
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} else {
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} else {
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DoubleBuffer(size) { get(it) }
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DoubleArray(size) { get(it) }
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}
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}
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@OptIn(PerformancePitfall::class)
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@OptIn(PerformancePitfall::class)
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@ -27,8 +27,13 @@ public class Mean<T>(
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override suspend fun evaluate(data: Buffer<T>): T = super<ComposableStatistic>.evaluate(data)
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override suspend fun evaluate(data: Buffer<T>): T = super<ComposableStatistic>.evaluate(data)
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override suspend fun computeIntermediate(data: Buffer<T>): Pair<T, Int> =
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override suspend fun computeIntermediate(data: Buffer<T>): Pair<T, Int> = group {
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evaluateBlocking(data) to data.size
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var res = zero
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for (i in data.indices) {
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res += data[i]
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}
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res to data.size
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}
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override suspend fun composeIntermediate(first: Pair<T, Int>, second: Pair<T, Int>): Pair<T, Int> =
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override suspend fun composeIntermediate(first: Pair<T, Int>, second: Pair<T, Int>): Pair<T, Int> =
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group { first.first + second.first } to (first.second + second.second)
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group { first.first + second.first } to (first.second + second.second)
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@ -38,9 +43,11 @@ public class Mean<T>(
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}
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}
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public companion object {
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public companion object {
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//TODO replace with optimized version which respects overflow
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@Deprecated("Use Double.mean instead")
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public val double: Mean<Double> = Mean(DoubleField) { sum, count -> sum / count }
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public val double: Mean<Double> = Mean(DoubleField) { sum, count -> sum / count }
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@Deprecated("Use Int.mean instead")
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public val int: Mean<Int> = Mean(IntRing) { sum, count -> sum / count }
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public val int: Mean<Int> = Mean(IntRing) { sum, count -> sum / count }
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@Deprecated("Use Long.mean instead")
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public val long: Mean<Long> = Mean(LongRing) { sum, count -> sum / count }
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public val long: Mean<Long> = Mean(LongRing) { sum, count -> sum / count }
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public fun evaluate(buffer: Buffer<Double>): Double = double.evaluateBlocking(buffer)
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public fun evaluate(buffer: Buffer<Double>): Double = double.evaluateBlocking(buffer)
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@ -48,3 +55,11 @@ public class Mean<T>(
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public fun evaluate(buffer: Buffer<Long>): Long = long.evaluateBlocking(buffer)
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public fun evaluate(buffer: Buffer<Long>): Long = long.evaluateBlocking(buffer)
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}
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}
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}
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}
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//TODO replace with optimized version which respects overflow
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public val Double.Companion.mean: Mean<Double> get() = Mean(DoubleField) { sum, count -> sum / count }
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public val Int.Companion.mean: Mean<Int> get() = Mean(IntRing) { sum, count -> sum / count }
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public val Long.Companion.mean: Mean<Long> get() = Mean(LongRing) { sum, count -> sum / count }
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@ -8,7 +8,6 @@ package space.kscience.kmath.stat
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import kotlinx.coroutines.CoroutineDispatcher
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import kotlinx.coroutines.CoroutineDispatcher
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import kotlinx.coroutines.Dispatchers
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import kotlinx.coroutines.Dispatchers
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import kotlinx.coroutines.ExperimentalCoroutinesApi
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import kotlinx.coroutines.ExperimentalCoroutinesApi
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import kotlinx.coroutines.FlowPreview
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import kotlinx.coroutines.flow.Flow
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import kotlinx.coroutines.flow.Flow
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import kotlinx.coroutines.flow.map
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import kotlinx.coroutines.flow.map
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import kotlinx.coroutines.flow.runningReduce
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import kotlinx.coroutines.flow.runningReduce
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@ -18,16 +17,23 @@ import space.kscience.kmath.structures.Buffer
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/**
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/**
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* A function, that transforms a buffer of random quantities to some resulting value
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* A function, that transforms a buffer of random quantities to some resulting value
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*/
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*/
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public interface Statistic<in T, out R> {
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public fun interface Statistic<in T, out R> {
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public suspend fun evaluate(data: Buffer<T>): R
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public suspend fun evaluate(data: Buffer<T>): R
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}
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}
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public interface BlockingStatistic<in T, out R> : Statistic<T, R> {
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public suspend operator fun <T, R> Statistic<T, R>.invoke(data: Buffer<T>): R = evaluate(data)
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/**
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* A statistic that is computed in a synchronous blocking mode
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*/
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public fun interface BlockingStatistic<in T, out R> : Statistic<T, R> {
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public fun evaluateBlocking(data: Buffer<T>): R
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public fun evaluateBlocking(data: Buffer<T>): R
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override suspend fun evaluate(data: Buffer<T>): R = evaluateBlocking(data)
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override suspend fun evaluate(data: Buffer<T>): R = evaluateBlocking(data)
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}
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}
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public operator fun <T, R> BlockingStatistic<T, R>.invoke(data: Buffer<T>): R = evaluateBlocking(data)
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/**
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/**
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* A statistic tha could be computed separately on different blocks of data and then composed
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* A statistic tha could be computed separately on different blocks of data and then composed
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*
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*
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@ -48,8 +54,10 @@ public interface ComposableStatistic<in T, I, out R> : Statistic<T, R> {
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override suspend fun evaluate(data: Buffer<T>): R = toResult(computeIntermediate(data))
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override suspend fun evaluate(data: Buffer<T>): R = toResult(computeIntermediate(data))
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}
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}
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@FlowPreview
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/**
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@ExperimentalCoroutinesApi
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* Flow intermediate state of the [ComposableStatistic]
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*/
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@OptIn(ExperimentalCoroutinesApi::class)
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private fun <T, I, R> ComposableStatistic<T, I, R>.flowIntermediate(
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private fun <T, I, R> ComposableStatistic<T, I, R>.flowIntermediate(
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flow: Flow<Buffer<T>>,
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flow: Flow<Buffer<T>>,
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dispatcher: CoroutineDispatcher = Dispatchers.Default,
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dispatcher: CoroutineDispatcher = Dispatchers.Default,
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@ -64,7 +72,7 @@ private fun <T, I, R> ComposableStatistic<T, I, R>.flowIntermediate(
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*
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*
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* The resulting flow contains values that include the whole previous statistics, not only the last chunk.
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* The resulting flow contains values that include the whole previous statistics, not only the last chunk.
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*/
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*/
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@OptIn(FlowPreview::class, ExperimentalCoroutinesApi::class)
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@OptIn(ExperimentalCoroutinesApi::class)
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public fun <T, I, R> ComposableStatistic<T, I, R>.flow(
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public fun <T, I, R> ComposableStatistic<T, I, R>.flow(
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flow: Flow<Buffer<T>>,
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flow: Flow<Buffer<T>>,
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dispatcher: CoroutineDispatcher = Dispatchers.Default,
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dispatcher: CoroutineDispatcher = Dispatchers.Default,
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@ -5,11 +5,13 @@
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package space.kscience.kmath.stat
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package space.kscience.kmath.stat
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import kotlinx.coroutines.flow.drop
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import kotlinx.coroutines.flow.first
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import kotlinx.coroutines.flow.first
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import kotlinx.coroutines.flow.last
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import kotlinx.coroutines.flow.take
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import kotlinx.coroutines.runBlocking
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import kotlinx.coroutines.runBlocking
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import space.kscience.kmath.streaming.chunked
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import space.kscience.kmath.streaming.chunked
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import kotlin.test.Test
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import kotlin.test.Test
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import kotlin.test.assertEquals
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internal class StatisticTest {
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internal class StatisticTest {
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//create a random number generator.
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//create a random number generator.
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@ -22,12 +24,27 @@ internal class StatisticTest {
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val chunked = data.chunked(1000)
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val chunked = data.chunked(1000)
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@Test
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@Test
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fun testParallelMean() = runBlocking {
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fun singleBlockingMean() {
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val average = Mean.double
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val first = runBlocking { chunked.first()}
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.flow(chunked) //create a flow with results
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val res = Double.mean(first)
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.drop(99) // Skip first 99 values and use one with total data
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assertEquals(0.5,res, 1e-1)
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.first() //get 1e5 data samples average
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println(average)
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}
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}
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@Test
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fun singleSuspendMean() = runBlocking {
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val first = runBlocking { chunked.first()}
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val res = Double.mean(first)
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assertEquals(0.5,res, 1e-1)
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}
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@Test
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fun parallelMean() = runBlocking {
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val average = Double.mean
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.flow(chunked) //create a flow from evaluated results
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.take(100) // Take 100 data chunks from the source and accumulate them
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.last() //get 1e5 data samples average
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assertEquals(0.5,average, 1e-3)
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}
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}
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}
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