Dev #127
@ -2,7 +2,7 @@ plugins {
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id("scientifik.publish") apply false
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}
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val kmathVersion by extra("0.1.4-dev-5")
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val kmathVersion by extra("0.1.4-dev-6")
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val bintrayRepo by extra("scientifik")
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val githubProject by extra("kmath")
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@ -27,7 +27,7 @@ class BufferMatrixContext<T : Any, R : Ring<T>>(
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@Suppress("OVERRIDE_BY_INLINE")
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object RealMatrixContext : GenericMatrixContext<Double, RealField> {
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override val elementContext = RealField
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override val elementContext get() = RealField
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override inline fun produce(rows: Int, columns: Int, initializer: (i: Int, j: Int) -> Double): Matrix<Double> {
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val buffer = DoubleBuffer(rows * columns) { offset -> initializer(offset / columns, offset % columns) }
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@ -101,8 +101,15 @@ infix fun BufferMatrix<Double>.dot(other: BufferMatrix<Double>): BufferMatrix<Do
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val array = DoubleArray(this.rowNum * other.colNum)
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val a = this.buffer.array
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val b = other.buffer.array
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//convert to array to insure there is not memory indirection
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fun Buffer<out Double>.unsafeArray(): DoubleArray = if (this is DoubleBuffer) {
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array
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} else {
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DoubleArray(size) { get(it) }
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}
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val a = this.buffer.unsafeArray()
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val b = other.buffer.unsafeArray()
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for (i in (0 until rowNum)) {
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for (j in (0 until other.colNum)) {
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@ -1,12 +1,8 @@
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package scientifik.kmath.linear
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import scientifik.kmath.operations.Field
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import scientifik.kmath.operations.Norm
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import scientifik.kmath.operations.RealField
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import scientifik.kmath.structures.Buffer
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import scientifik.kmath.structures.Matrix
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import scientifik.kmath.structures.VirtualBuffer
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import scientifik.kmath.structures.asSequence
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typealias Point<T> = Buffer<T>
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@ -19,8 +15,6 @@ interface LinearSolver<T : Any> {
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fun inverse(a: Matrix<T>): Matrix<T>
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}
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typealias RealMatrix = Matrix<Double>
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/**
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* Convert matrix to vector if it is possible
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*/
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@ -1,14 +1,46 @@
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package scientifik.kmath.linear
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import scientifik.kmath.structures.Buffer
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import scientifik.kmath.structures.BufferFactory
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import scientifik.kmath.structures.Structure2D
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import scientifik.kmath.structures.asBuffer
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class MatrixBuilder<T : Any>(val rows: Int, val columns: Int) {
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operator fun invoke(vararg elements: T): FeaturedMatrix<T> {
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class MatrixBuilder(val rows: Int, val columns: Int) {
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operator fun <T : Any> invoke(vararg elements: T): FeaturedMatrix<T> {
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if (rows * columns != elements.size) error("The number of elements ${elements.size} is not equal $rows * $columns")
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val buffer = elements.asBuffer()
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return BufferMatrix(rows, columns, buffer)
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}
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//TODO add specific matrix builder functions like diagonal, etc
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}
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fun <T : Any> Structure2D.Companion.build(rows: Int, columns: Int): MatrixBuilder<T> = MatrixBuilder(rows, columns)
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fun Structure2D.Companion.build(rows: Int, columns: Int): MatrixBuilder = MatrixBuilder(rows, columns)
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fun <T : Any> Structure2D.Companion.row(vararg values: T): FeaturedMatrix<T> {
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val buffer = values.asBuffer()
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return BufferMatrix(1, values.size, buffer)
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}
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inline fun <reified T : Any> Structure2D.Companion.row(
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size: Int,
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factory: BufferFactory<T> = Buffer.Companion::auto,
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noinline builder: (Int) -> T
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): FeaturedMatrix<T> {
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val buffer = factory(size, builder)
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return BufferMatrix(1, size, buffer)
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}
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fun <T : Any> Structure2D.Companion.column(vararg values: T): FeaturedMatrix<T> {
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val buffer = values.asBuffer()
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return BufferMatrix(values.size, 1, buffer)
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}
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inline fun <reified T : Any> Structure2D.Companion.column(
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size: Int,
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factory: BufferFactory<T> = Buffer.Companion::auto,
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noinline builder: (Int) -> T
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): FeaturedMatrix<T> {
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val buffer = factory(size, builder)
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return BufferMatrix(size, 1, buffer)
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}
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@ -161,36 +161,7 @@ class ArrayBuffer<T>(private val array: Array<T>) : MutableBuffer<T> {
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override fun copy(): MutableBuffer<T> = ArrayBuffer(array.copyOf())
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}
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fun <T> Array<T>.asBuffer() = ArrayBuffer(this)
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inline class DoubleBuffer(val array: DoubleArray) : MutableBuffer<Double> {
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override val size: Int get() = array.size
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override fun get(index: Int): Double = array[index]
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override fun set(index: Int, value: Double) {
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array[index] = value
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}
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override fun iterator() = array.iterator()
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override fun copy(): MutableBuffer<Double> = DoubleBuffer(array.copyOf())
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}
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@Suppress("FunctionName")
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inline fun DoubleBuffer(size: Int, init: (Int) -> Double) = DoubleBuffer(DoubleArray(size) { init(it) })
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/**
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* Transform buffer of doubles into array for high performance operations
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*/
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val Buffer<out Double>.array: DoubleArray
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get() = if (this is DoubleBuffer) {
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array
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} else {
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DoubleArray(size) { get(it) }
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}
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fun DoubleArray.asBuffer() = DoubleBuffer(this)
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fun <T> Array<T>.asBuffer(): ArrayBuffer<T> = ArrayBuffer(this)
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inline class ShortBuffer(val array: ShortArray) : MutableBuffer<Short> {
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override val size: Int get() = array.size
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@ -0,0 +1,34 @@
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package scientifik.kmath.structures
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inline class DoubleBuffer(val array: DoubleArray) : MutableBuffer<Double> {
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override val size: Int get() = array.size
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override fun get(index: Int): Double = array[index]
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override fun set(index: Int, value: Double) {
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array[index] = value
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}
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override fun iterator() = array.iterator()
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override fun copy(): MutableBuffer<Double> =
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DoubleBuffer(array.copyOf())
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}
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@Suppress("FunctionName")
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inline fun DoubleBuffer(size: Int, init: (Int) -> Double): DoubleBuffer = DoubleBuffer(DoubleArray(size) { init(it) })
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@Suppress("FunctionName")
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fun DoubleBuffer(vararg doubles: Double): DoubleBuffer = DoubleBuffer(doubles)
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/**
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* Transform buffer of doubles into array for high performance operations
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*/
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val MutableBuffer<out Double>.array: DoubleArray
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get() = if (this is DoubleBuffer) {
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array
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} else {
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DoubleArray(size) { get(it) }
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}
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fun DoubleArray.asBuffer() = DoubleBuffer(this)
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@ -20,10 +20,14 @@ interface NDStructure<T> {
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companion object {
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fun equals(st1: NDStructure<*>, st2: NDStructure<*>): Boolean {
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if(st1===st2) return true
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if (st1 === st2) return true
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// fast comparison of buffers if possible
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if(st1 is NDBuffer && st2 is NDBuffer && st1.strides == st2.strides){
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if (
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st1 is NDBuffer &&
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st2 is NDBuffer &&
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st1.strides == st2.strides
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) {
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return st1.buffer.contentEquals(st2.buffer)
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}
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@ -210,7 +214,7 @@ abstract class NDBuffer<T> : NDStructure<T> {
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class BufferNDStructure<T>(
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override val strides: Strides,
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override val buffer: Buffer<T>
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) : NDBuffer<T>(){
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) : NDBuffer<T>() {
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init {
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if (strides.linearSize != buffer.size) {
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error("Expected buffer side of ${strides.linearSize}, but found ${buffer.size}")
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@ -17,7 +17,7 @@ interface Structure1D<T> : NDStructure<T>, Buffer<T> {
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/**
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* A 1D wrapper for nd-structure
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*/
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private inline class Structure1DWrapper<T>(val structure: NDStructure<T>) : Structure1D<T> {
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private inline class Structure1DWrapper<T>(val structure: NDStructure<T>) : Structure1D<T>{
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override val shape: IntArray get() = structure.shape
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override val size: Int get() = structure.shape[0]
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@ -17,7 +17,7 @@ class MatrixTest {
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@Test
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fun testBuilder() {
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val matrix = Matrix.build<Double>(2, 3)(
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val matrix = Matrix.build(2, 3)(
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1.0, 0.0, 0.0,
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0.0, 1.0, 2.0
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)
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@ -1,146 +0,0 @@
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package scientifik.kmath.real
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import scientifik.kmath.linear.MatrixContext
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import scientifik.kmath.linear.RealMatrixContext.elementContext
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import scientifik.kmath.linear.VirtualMatrix
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import scientifik.kmath.operations.sum
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import scientifik.kmath.structures.Buffer
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import scientifik.kmath.structures.Matrix
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import scientifik.kmath.structures.asSequence
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import kotlin.math.pow
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/*
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* Functions for convenient "numpy-like" operations with Double matrices.
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*
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* Initial implementation of these functions is taken from:
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* https://github.com/thomasnield/numky/blob/master/src/main/kotlin/org/nield/numky/linear/DoubleOperators.kt
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*
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*/
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/*
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* Functions that help create a real (Double) matrix
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*/
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fun realMatrix(rowNum: Int, colNum: Int, initializer: (i: Int, j: Int) -> Double) =
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MatrixContext.real.produce(rowNum, colNum, initializer)
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fun Sequence<DoubleArray>.toMatrix() = toList().let {
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MatrixContext.real.produce(it.size, it[0].size) { row, col -> it[row][col] }
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}
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fun Matrix<Double>.repeatStackVertical(n: Int) = VirtualMatrix(rowNum*n, colNum) {
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row, col -> get(if (row == 0) 0 else row % rowNum, col)
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}
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/*
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* Operations for matrix and real number
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*/
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operator fun Matrix<Double>.times(double: Double) = MatrixContext.real.produce(rowNum, colNum) {
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row, col -> this[row, col] * double
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}
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operator fun Matrix<Double>.plus(double: Double) = MatrixContext.real.produce(rowNum, colNum) {
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row, col -> this[row, col] + double
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}
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operator fun Matrix<Double>.minus(double: Double) = MatrixContext.real.produce(rowNum, colNum) {
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row, col -> this[row, col] - double
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}
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operator fun Matrix<Double>.div(double: Double) = MatrixContext.real.produce(rowNum, colNum) {
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row, col -> this[row, col] / double
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}
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operator fun Double.times(matrix: Matrix<Double>) = MatrixContext.real.produce(matrix.rowNum, matrix.colNum) {
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row, col -> this * matrix[row, col]
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}
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operator fun Double.plus(matrix: Matrix<Double>) = MatrixContext.real.produce(matrix.rowNum, matrix.colNum) {
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row, col -> this + matrix[row, col]
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}
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operator fun Double.minus(matrix: Matrix<Double>) = MatrixContext.real.produce(matrix.rowNum, matrix.colNum) {
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row, col -> this - matrix[row, col]
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}
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// TODO: does this operation make sense? Should it be 'this/matrix[row, col]'?
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//operator fun Double.div(matrix: Matrix<Double>) = MatrixContext.real.produce(matrix.rowNum, matrix.colNum) {
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// row, col -> matrix[row, col] / this
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//}
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/*
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* Per-element (!) square and power operations
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*/
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fun Matrix<Double>.square() = MatrixContext.real.produce(rowNum, colNum) {
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row, col -> this[row, col].pow(2)
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}
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fun Matrix<Double>.pow(n: Int) = MatrixContext.real.produce(rowNum, colNum) {
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i, j -> this[i, j].pow(n)
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}
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/*
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* Operations on two matrices (per-element!)
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*/
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operator fun Matrix<Double>.times(other: Matrix<Double>) = MatrixContext.real.produce(rowNum, colNum) {
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row, col -> this[row, col] * other[row, col]
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}
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operator fun Matrix<Double>.plus(other: Matrix<Double>) = MatrixContext.real.add(this, other)
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operator fun Matrix<Double>.minus(other: Matrix<Double>) = MatrixContext.real.produce(rowNum, colNum) {
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row, col -> this[row,col] - other[row,col]
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}
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/*
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* Operations on columns
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*/
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inline fun Matrix<Double>.appendColumn(crossinline mapper: (Buffer<Double>) -> Double) =
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MatrixContext.real.produce(rowNum,colNum+1) {
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row, col ->
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if (col < colNum)
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this[row, col]
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else
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mapper(rows[row])
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}
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fun Matrix<Double>.extractColumns(columnRange: IntRange) = MatrixContext.real.produce(rowNum, columnRange.count()) {
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row, col -> this[row, columnRange.first + col]
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}
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fun Matrix<Double>.extractColumn(columnIndex: Int) = extractColumns(columnIndex..columnIndex)
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fun Matrix<Double>.sumByColumn() = MatrixContext.real.produce(1, colNum) { _, j ->
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val column = columns[j]
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with(elementContext) {
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sum(column.asSequence())
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}
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}
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fun Matrix<Double>.minByColumn() = MatrixContext.real.produce(1, colNum) {
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_, j -> columns[j].asSequence().min() ?: throw Exception("Cannot produce min on empty column")
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}
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fun Matrix<Double>.maxByColumn() = MatrixContext.real.produce(1, colNum) {
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_, j -> columns[j].asSequence().max() ?: throw Exception("Cannot produce min on empty column")
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}
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fun Matrix<Double>.averageByColumn() = MatrixContext.real.produce(1, colNum) {
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_, j -> columns[j].asSequence().average()
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}
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/*
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* Operations processing all elements
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*/
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fun Matrix<Double>.sum() = elements().map { (_, value) -> value }.sum()
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fun Matrix<Double>.min() = elements().map { (_, value) -> value }.min()
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fun Matrix<Double>.max() = elements().map { (_, value) -> value }.max()
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fun Matrix<Double>.average() = elements().map { (_, value) -> value }.average()
|
@ -0,0 +1,8 @@
|
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package scientifik.kmath.real
|
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import scientifik.kmath.structures.DoubleBuffer
|
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|
||||
/**
|
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* C
|
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*/
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fun DoubleBuffer.contentEquals(vararg doubles: Double) = array.contentEquals(doubles)
|
@ -0,0 +1,161 @@
|
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package scientifik.kmath.real
|
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|
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import scientifik.kmath.linear.MatrixContext
|
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import scientifik.kmath.linear.RealMatrixContext.elementContext
|
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import scientifik.kmath.linear.VirtualMatrix
|
||||
import scientifik.kmath.operations.sum
|
||||
import scientifik.kmath.structures.Buffer
|
||||
import scientifik.kmath.structures.DoubleBuffer
|
||||
import scientifik.kmath.structures.Matrix
|
||||
import scientifik.kmath.structures.asIterable
|
||||
import kotlin.math.pow
|
||||
|
||||
/*
|
||||
* Functions for convenient "numpy-like" operations with Double matrices.
|
||||
*
|
||||
* Initial implementation of these functions is taken from:
|
||||
* https://github.com/thomasnield/numky/blob/master/src/main/kotlin/org/nield/numky/linear/DoubleOperators.kt
|
||||
*
|
||||
*/
|
||||
|
||||
/*
|
||||
* Functions that help create a real (Double) matrix
|
||||
*/
|
||||
|
||||
typealias RealMatrix = Matrix<Double>
|
||||
|
||||
fun realMatrix(rowNum: Int, colNum: Int, initializer: (i: Int, j: Int) -> Double): RealMatrix =
|
||||
MatrixContext.real.produce(rowNum, colNum, initializer)
|
||||
|
||||
fun Sequence<DoubleArray>.toMatrix(): RealMatrix = toList().let {
|
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MatrixContext.real.produce(it.size, it[0].size) { row, col -> it[row][col] }
|
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}
|
||||
|
||||
fun Matrix<Double>.repeatStackVertical(n: Int): RealMatrix =
|
||||
VirtualMatrix(rowNum * n, colNum) { row, col ->
|
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get(if (row == 0) 0 else row % rowNum, col)
|
||||
}
|
||||
|
||||
/*
|
||||
* Operations for matrix and real number
|
||||
*/
|
||||
|
||||
operator fun Matrix<Double>.times(double: Double): RealMatrix =
|
||||
MatrixContext.real.produce(rowNum, colNum) { row, col ->
|
||||
this[row, col] * double
|
||||
}
|
||||
|
||||
operator fun Matrix<Double>.plus(double: Double): RealMatrix =
|
||||
MatrixContext.real.produce(rowNum, colNum) { row, col ->
|
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this[row, col] + double
|
||||
}
|
||||
|
||||
operator fun Matrix<Double>.minus(double: Double): RealMatrix =
|
||||
MatrixContext.real.produce(rowNum, colNum) { row, col ->
|
||||
this[row, col] - double
|
||||
}
|
||||
|
||||
operator fun Matrix<Double>.div(double: Double): RealMatrix =
|
||||
MatrixContext.real.produce(rowNum, colNum) { row, col ->
|
||||
this[row, col] / double
|
||||
}
|
||||
|
||||
operator fun Double.times(matrix: Matrix<Double>): RealMatrix =
|
||||
MatrixContext.real.produce(matrix.rowNum, matrix.colNum) { row, col ->
|
||||
this * matrix[row, col]
|
||||
}
|
||||
|
||||
operator fun Double.plus(matrix: Matrix<Double>): RealMatrix =
|
||||
MatrixContext.real.produce(matrix.rowNum, matrix.colNum) { row, col ->
|
||||
this + matrix[row, col]
|
||||
}
|
||||
|
||||
operator fun Double.minus(matrix: Matrix<Double>): RealMatrix =
|
||||
MatrixContext.real.produce(matrix.rowNum, matrix.colNum) { row, col ->
|
||||
this - matrix[row, col]
|
||||
}
|
||||
|
||||
// TODO: does this operation make sense? Should it be 'this/matrix[row, col]'?
|
||||
//operator fun Double.div(matrix: Matrix<Double>) = MatrixContext.real.produce(matrix.rowNum, matrix.colNum) {
|
||||
// row, col -> matrix[row, col] / this
|
||||
//}
|
||||
|
||||
/*
|
||||
* Per-element (!) square and power operations
|
||||
*/
|
||||
|
||||
fun Matrix<Double>.square(): RealMatrix = MatrixContext.real.produce(rowNum, colNum) { row, col ->
|
||||
this[row, col].pow(2)
|
||||
}
|
||||
|
||||
fun Matrix<Double>.pow(n: Int): RealMatrix = MatrixContext.real.produce(rowNum, colNum) { i, j ->
|
||||
this[i, j].pow(n)
|
||||
}
|
||||
|
||||
/*
|
||||
* Operations on two matrices (per-element!)
|
||||
*/
|
||||
|
||||
operator fun Matrix<Double>.times(other: Matrix<Double>): RealMatrix =
|
||||
MatrixContext.real.produce(rowNum, colNum) { row, col ->
|
||||
this[row, col] * other[row, col]
|
||||
}
|
||||
|
||||
operator fun Matrix<Double>.plus(other: Matrix<Double>): RealMatrix =
|
||||
MatrixContext.real.add(this, other)
|
||||
|
||||
operator fun Matrix<Double>.minus(other: Matrix<Double>): RealMatrix =
|
||||
MatrixContext.real.produce(rowNum, colNum) { row, col ->
|
||||
this[row, col] - other[row, col]
|
||||
}
|
||||
|
||||
/*
|
||||
* Operations on columns
|
||||
*/
|
||||
|
||||
inline fun Matrix<Double>.appendColumn(crossinline mapper: (Buffer<Double>) -> Double) =
|
||||
MatrixContext.real.produce(rowNum, colNum + 1) { row, col ->
|
||||
if (col < colNum)
|
||||
this[row, col]
|
||||
else
|
||||
mapper(rows[row])
|
||||
}
|
||||
|
||||
fun Matrix<Double>.extractColumns(columnRange: IntRange): RealMatrix =
|
||||
MatrixContext.real.produce(rowNum, columnRange.count()) { row, col ->
|
||||
this[row, columnRange.first + col]
|
||||
}
|
||||
|
||||
fun Matrix<Double>.extractColumn(columnIndex: Int): RealMatrix =
|
||||
extractColumns(columnIndex..columnIndex)
|
||||
|
||||
fun Matrix<Double>.sumByColumn(): DoubleBuffer = DoubleBuffer(colNum) { j ->
|
||||
val column = columns[j]
|
||||
with(elementContext) {
|
||||
sum(column.asIterable())
|
||||
}
|
||||
}
|
||||
|
||||
fun Matrix<Double>.minByColumn(): DoubleBuffer = DoubleBuffer(colNum) { j ->
|
||||
columns[j].asIterable().min() ?: throw Exception("Cannot produce min on empty column")
|
||||
}
|
||||
|
||||
fun Matrix<Double>.maxByColumn(): DoubleBuffer = DoubleBuffer(colNum) { j ->
|
||||
columns[j].asIterable().max() ?: throw Exception("Cannot produce min on empty column")
|
||||
}
|
||||
|
||||
fun Matrix<Double>.averageByColumn(): DoubleBuffer = DoubleBuffer(colNum) { j ->
|
||||
columns[j].asIterable().average()
|
||||
}
|
||||
|
||||
/*
|
||||
* Operations processing all elements
|
||||
*/
|
||||
|
||||
fun Matrix<Double>.sum() = elements().map { (_, value) -> value }.sum()
|
||||
|
||||
fun Matrix<Double>.min() = elements().map { (_, value) -> value }.min()
|
||||
|
||||
fun Matrix<Double>.max() = elements().map { (_, value) -> value }.max()
|
||||
|
||||
fun Matrix<Double>.average() = elements().map { (_, value) -> value }.average()
|
@ -1,11 +1,12 @@
|
||||
package scientific.kmath.real
|
||||
|
||||
import scientifik.kmath.real.*
|
||||
import scientifik.kmath.linear.VirtualMatrix
|
||||
import scientifik.kmath.linear.build
|
||||
import scientifik.kmath.real.*
|
||||
import scientifik.kmath.structures.Matrix
|
||||
import kotlin.test.Test
|
||||
import kotlin.test.assertEquals
|
||||
import kotlin.test.assertTrue
|
||||
|
||||
class RealMatrixTest {
|
||||
@Test
|
||||
@ -19,72 +20,72 @@ class RealMatrixTest {
|
||||
fun testSequenceToMatrix() {
|
||||
val m = Sequence<DoubleArray> {
|
||||
listOf(
|
||||
DoubleArray(10) { 10.0 },
|
||||
DoubleArray(10) { 20.0 },
|
||||
DoubleArray(10) { 30.0 }).iterator()
|
||||
DoubleArray(10) { 10.0 },
|
||||
DoubleArray(10) { 20.0 },
|
||||
DoubleArray(10) { 30.0 }).iterator()
|
||||
}.toMatrix()
|
||||
assertEquals(m.sum(), 20.0 * 30)
|
||||
}
|
||||
|
||||
@Test
|
||||
fun testRepeatStackVertical() {
|
||||
val matrix1 = Matrix.build<Double>(2, 3)(
|
||||
1.0, 0.0, 0.0,
|
||||
0.0, 1.0, 2.0
|
||||
val matrix1 = Matrix.build(2, 3)(
|
||||
1.0, 0.0, 0.0,
|
||||
0.0, 1.0, 2.0
|
||||
)
|
||||
val matrix2 = Matrix.build<Double>(6, 3)(
|
||||
1.0, 0.0, 0.0,
|
||||
0.0, 1.0, 2.0,
|
||||
1.0, 0.0, 0.0,
|
||||
0.0, 1.0, 2.0,
|
||||
1.0, 0.0, 0.0,
|
||||
0.0, 1.0, 2.0
|
||||
val matrix2 = Matrix.build(6, 3)(
|
||||
1.0, 0.0, 0.0,
|
||||
0.0, 1.0, 2.0,
|
||||
1.0, 0.0, 0.0,
|
||||
0.0, 1.0, 2.0,
|
||||
1.0, 0.0, 0.0,
|
||||
0.0, 1.0, 2.0
|
||||
)
|
||||
assertEquals(VirtualMatrix.wrap(matrix2), matrix1.repeatStackVertical(3))
|
||||
}
|
||||
|
||||
@Test
|
||||
fun testMatrixAndDouble() {
|
||||
val matrix1 = Matrix.build<Double>(2, 3)(
|
||||
1.0, 0.0, 3.0,
|
||||
4.0, 6.0, 2.0
|
||||
val matrix1 = Matrix.build(2, 3)(
|
||||
1.0, 0.0, 3.0,
|
||||
4.0, 6.0, 2.0
|
||||
)
|
||||
val matrix2 = (matrix1 * 2.5 + 1.0 - 2.0) / 2.0
|
||||
val expectedResult = Matrix.build<Double>(2, 3)(
|
||||
0.75, -0.5, 3.25,
|
||||
4.5, 7.0, 2.0
|
||||
val expectedResult = Matrix.build(2, 3)(
|
||||
0.75, -0.5, 3.25,
|
||||
4.5, 7.0, 2.0
|
||||
)
|
||||
assertEquals(matrix2, expectedResult)
|
||||
}
|
||||
|
||||
@Test
|
||||
fun testDoubleAndMatrix() {
|
||||
val matrix1 = Matrix.build<Double>(2, 3)(
|
||||
1.0, 0.0, 3.0,
|
||||
4.0, 6.0, 2.0
|
||||
val matrix1 = Matrix.build(2, 3)(
|
||||
1.0, 0.0, 3.0,
|
||||
4.0, 6.0, 2.0
|
||||
)
|
||||
val matrix2 = 20.0 - (10.0 + (5.0 * matrix1))
|
||||
//val matrix2 = 10.0 + (5.0 * matrix1)
|
||||
val expectedResult = Matrix.build<Double>(2, 3)(
|
||||
5.0, 10.0, -5.0,
|
||||
-10.0, -20.0, 0.0
|
||||
val expectedResult = Matrix.build(2, 3)(
|
||||
5.0, 10.0, -5.0,
|
||||
-10.0, -20.0, 0.0
|
||||
)
|
||||
assertEquals(matrix2, expectedResult)
|
||||
}
|
||||
|
||||
@Test
|
||||
fun testSquareAndPower() {
|
||||
val matrix1 = Matrix.build<Double>(2, 3)(
|
||||
-1.0, 0.0, 3.0,
|
||||
4.0, -6.0, -2.0
|
||||
val matrix1 = Matrix.build(2, 3)(
|
||||
-1.0, 0.0, 3.0,
|
||||
4.0, -6.0, -2.0
|
||||
)
|
||||
val matrix2 = Matrix.build<Double>(2, 3)(
|
||||
1.0, 0.0, 9.0,
|
||||
16.0, 36.0, 4.0
|
||||
val matrix2 = Matrix.build(2, 3)(
|
||||
1.0, 0.0, 9.0,
|
||||
16.0, 36.0, 4.0
|
||||
)
|
||||
val matrix3 = Matrix.build<Double>(2, 3)(
|
||||
-1.0, 0.0, 27.0,
|
||||
64.0, -216.0, -8.0
|
||||
val matrix3 = Matrix.build(2, 3)(
|
||||
-1.0, 0.0, 27.0,
|
||||
64.0, -216.0, -8.0
|
||||
)
|
||||
assertEquals(matrix1.square(), matrix2)
|
||||
assertEquals(matrix1.pow(3), matrix3)
|
||||
@ -92,51 +93,61 @@ class RealMatrixTest {
|
||||
|
||||
@Test
|
||||
fun testTwoMatrixOperations() {
|
||||
val matrix1 = Matrix.build<Double>(2, 3)(
|
||||
-1.0, 0.0, 3.0,
|
||||
4.0, -6.0, 7.0
|
||||
val matrix1 = Matrix.build(2, 3)(
|
||||
-1.0, 0.0, 3.0,
|
||||
4.0, -6.0, 7.0
|
||||
)
|
||||
val matrix2 = Matrix.build<Double>(2, 3)(
|
||||
1.0, 0.0, 3.0,
|
||||
4.0, 6.0, -2.0
|
||||
val matrix2 = Matrix.build(2, 3)(
|
||||
1.0, 0.0, 3.0,
|
||||
4.0, 6.0, -2.0
|
||||
)
|
||||
val result = matrix1 * matrix2 + matrix1 - matrix2
|
||||
val expectedResult = Matrix.build<Double>(2, 3)(
|
||||
-3.0, 0.0, 9.0,
|
||||
16.0, -48.0, -5.0
|
||||
val expectedResult = Matrix.build(2, 3)(
|
||||
-3.0, 0.0, 9.0,
|
||||
16.0, -48.0, -5.0
|
||||
)
|
||||
assertEquals(result, expectedResult)
|
||||
}
|
||||
|
||||
@Test
|
||||
fun testColumnOperations() {
|
||||
val matrix1 = Matrix.build<Double>(2, 4)(
|
||||
-1.0, 0.0, 3.0, 15.0,
|
||||
4.0, -6.0, 7.0, -11.0
|
||||
val matrix1 = Matrix.build(2, 4)(
|
||||
-1.0, 0.0, 3.0, 15.0,
|
||||
4.0, -6.0, 7.0, -11.0
|
||||
)
|
||||
val matrix2 = Matrix.build<Double>(2, 5)(
|
||||
-1.0, 0.0, 3.0, 15.0, -1.0,
|
||||
4.0, -6.0, 7.0, -11.0, 4.0
|
||||
val matrix2 = Matrix.build(2, 5)(
|
||||
-1.0, 0.0, 3.0, 15.0, -1.0,
|
||||
4.0, -6.0, 7.0, -11.0, 4.0
|
||||
)
|
||||
val col1 = Matrix.build<Double>(2, 1)(0.0, -6.0)
|
||||
val cols1to2 = Matrix.build<Double>(2, 2)(
|
||||
0.0, 3.0,
|
||||
-6.0, 7.0
|
||||
val col1 = Matrix.build(2, 1)(0.0, -6.0)
|
||||
val cols1to2 = Matrix.build(2, 2)(
|
||||
0.0, 3.0,
|
||||
-6.0, 7.0
|
||||
)
|
||||
|
||||
assertEquals(matrix1.appendColumn { it[0] }, matrix2)
|
||||
assertEquals(matrix1.extractColumn(1), col1)
|
||||
assertEquals(matrix1.extractColumns(1..2), cols1to2)
|
||||
assertEquals(matrix1.sumByColumn(), Matrix.build<Double>(1, 4)(3.0, -6.0, 10.0, 4.0))
|
||||
assertEquals(matrix1.minByColumn(), Matrix.build<Double>(1, 4)(-1.0, -6.0, 3.0, -11.0))
|
||||
assertEquals(matrix1.maxByColumn(), Matrix.build<Double>(1, 4)(4.0, 0.0, 7.0, 15.0))
|
||||
assertEquals(matrix1.averageByColumn(), Matrix.build<Double>(1, 4)(1.5, -3.0, 5.0, 2.0))
|
||||
//equals should never be called on buffers
|
||||
assertTrue {
|
||||
matrix1.sumByColumn().contentEquals(3.0, -6.0, 10.0, 4.0)
|
||||
} //assertEquals(matrix1.sumByColumn(), DoubleBuffer(3.0, -6.0, 10.0, 4.0))
|
||||
assertTrue {
|
||||
matrix1.minByColumn().contentEquals(-1.0, -6.0, 3.0, -11.0)
|
||||
} //assertEquals(matrix1.minByColumn(), DoubleBuffer(-1.0, -6.0, 3.0, -11.0))
|
||||
assertTrue {
|
||||
matrix1.maxByColumn().contentEquals(4.0, 0.0, 7.0, 15.0)
|
||||
} //assertEquals(matrix1.maxByColumn(), DoubleBuffer(4.0, 0.0, 7.0, 15.0))
|
||||
assertTrue {
|
||||
matrix1.averageByColumn().contentEquals(1.5, -3.0, 5.0, 2.0)
|
||||
} //assertEquals(matrix1.averageByColumn(), DoubleBuffer(1.5, -3.0, 5.0, 2.0))
|
||||
}
|
||||
|
||||
@Test
|
||||
fun testAllElementOperations() {
|
||||
val matrix1 = Matrix.build<Double>(2, 4)(
|
||||
-1.0, 0.0, 3.0, 15.0,
|
||||
4.0, -6.0, 7.0, -11.0
|
||||
val matrix1 = Matrix.build(2, 4)(
|
||||
-1.0, 0.0, 3.0, 15.0,
|
||||
4.0, -6.0, 7.0, -11.0
|
||||
)
|
||||
assertEquals(matrix1.sum(), 11.0)
|
||||
assertEquals(matrix1.min(), -11.0)
|
||||
|
Loading…
Reference in New Issue
Block a user