WIP vector space refactor
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@ -3,12 +3,13 @@ package space.kscience.kmath.commons.linear
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import org.apache.commons.math3.linear.*
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import space.kscience.kmath.linear.*
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import space.kscience.kmath.misc.UnstableKMathAPI
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import space.kscience.kmath.nd.NDStructure
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import space.kscience.kmath.operations.RealField
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import space.kscience.kmath.structures.RealBuffer
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import kotlin.reflect.KClass
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import kotlin.reflect.cast
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public inline class CMMatrix(public val origin: RealMatrix) : Matrix<Double> {
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public class CMMatrix(public val origin: RealMatrix) : Matrix<Double> {
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public override val rowNum: Int get() = origin.rowDimension
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public override val colNum: Int get() = origin.columnDimension
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@ -51,12 +52,17 @@ public inline class CMMatrix(public val origin: RealMatrix) : Matrix<Double> {
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}?.let(type::cast)
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public override operator fun get(i: Int, j: Int): Double = origin.getEntry(i, j)
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override fun equals(other: Any?): Boolean {
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if (this === other) return true
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if (other !is NDStructure<*>) return false
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return NDStructure.contentEquals(this, other)
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}
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override fun hashCode(): Int = origin.hashCode()
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}
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public fun RealMatrix.asMatrix(): CMMatrix = CMMatrix(this)
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public class CMVector(public val origin: RealVector) : Vector<Double> {
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public inline class CMVector(public val origin: RealVector) : Vector<Double> {
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public override val size: Int get() = origin.dimension
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public override operator fun get(index: Int): Double = origin.getEntry(index)
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@ -64,16 +70,17 @@ public class CMVector(public val origin: RealVector) : Vector<Double> {
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public override operator fun iterator(): Iterator<Double> = origin.toArray().iterator()
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}
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public fun Point<Double>.toCM(): CMVector = if (this is CMVector) this else {
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val array = DoubleArray(size) { this[it] }
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CMVector(ArrayRealVector(array))
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}
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public fun RealVector.toPoint(): CMVector = CMVector(this)
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public object CMLinearSpace : LinearSpace<Double, RealField> {
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public override fun buildMatrix(rows: Int, columns: Int, initializer: (i: Int, j: Int) -> Double): CMMatrix {
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val array = Array(rows) { i -> DoubleArray(columns) { j -> initializer(i, j) } }
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override val elementAlgebra: RealField get() = RealField
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public override fun buildMatrix(
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rows: Int,
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columns: Int,
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initializer: RealField.(i: Int, j: Int) -> Double,
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): CMMatrix {
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val array = Array(rows) { i -> DoubleArray(columns) { j -> RealField.initializer(i, j) } }
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return CMMatrix(Array2DRowRealMatrix(array))
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}
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@ -83,31 +90,50 @@ public object CMLinearSpace : LinearSpace<Double, RealField> {
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else -> {
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//TODO add feature analysis
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val array = Array(rowNum) { i -> DoubleArray(colNum) { j -> get(i, j) } }
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CMMatrix(Array2DRowRealMatrix(array))
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Array2DRowRealMatrix(array).wrap()
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}
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}
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public fun Vector<Double>.toCM(): CMVector = if (this is CMVector) this else {
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val array = DoubleArray(size) { this[it] }
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ArrayRealVector(array).wrap()
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}
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private fun RealMatrix.wrap(): CMMatrix = CMMatrix(this)
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private fun RealVector.wrap(): CMVector = CMVector(this)
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override fun buildVector(size: Int, initializer: RealField.(Int) -> Double): Vector<Double> =
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ArrayRealVector(DoubleArray(size) { RealField.initializer(it) }).wrap()
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override fun Matrix<Double>.plus(other: Matrix<Double>): CMMatrix =
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toCM().origin.add(other.toCM().origin).wrap()
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override fun Vector<Double>.plus(other: Vector<Double>): CMVector =
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toCM().origin.add(other.toCM().origin).wrap()
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override fun Vector<Double>.minus(other: Vector<Double>): CMVector =
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toCM().origin.subtract(other.toCM().origin).wrap()
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public override fun Matrix<Double>.dot(other: Matrix<Double>): CMMatrix =
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CMMatrix(toCM().origin.multiply(other.toCM().origin))
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toCM().origin.multiply(other.toCM().origin).wrap()
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public override fun Matrix<Double>.dot(vector: Vector<Double>): CMVector =
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CMVector(toCM().origin.preMultiply(vector.toCM().origin))
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toCM().origin.preMultiply(vector.toCM().origin).wrap()
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public override operator fun Matrix<Double>.unaryMinus(): CMMatrix =
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buildMatrix(rowNum, colNum) { i, j -> -get(i, j) }
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public override fun add(a: Matrix<Double>, b: Matrix<Double>): CMMatrix =
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CMMatrix(a.toCM().origin.multiply(b.toCM().origin))
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public override operator fun Matrix<Double>.minus(b: Matrix<Double>): CMMatrix =
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CMMatrix(toCM().origin.subtract(b.toCM().origin))
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// public override fun multiply(a: Matrix<Double>, k: Number): CMMatrix =
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// CMMatrix(a.toCM().origin.scalarMultiply(k.toDouble()))
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public override operator fun Matrix<Double>.minus(other: Matrix<Double>): CMMatrix =
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toCM().origin.subtract(other.toCM().origin).wrap()
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public override operator fun Matrix<Double>.times(value: Double): CMMatrix =
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buildMatrix(rowNum, colNum) { i, j -> get(i, j) * value }
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toCM().origin.scalarMultiply(value).wrap()
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override fun Double.times(m: Matrix<Double>): CMMatrix =
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m * this
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override fun Vector<Double>.times(value: Double): CMVector =
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toCM().origin.mapMultiply(value).wrap()
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override fun Double.times(v: Vector<Double>): CMVector =
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v * this
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}
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public operator fun CMMatrix.plus(other: CMMatrix): CMMatrix =
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@ -14,12 +14,7 @@ import kotlin.reflect.KClass
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*/
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public typealias Matrix<T> = Structure2D<T>
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/**
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* Alias for [Structure1D] with more familiar name.
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*
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* @param T the type of items.
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*/
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public typealias Vector<T> = Structure1D<T>
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public typealias Vector<T> = Point<T>
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/**
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* Basic operations on matrices and vectors. Operates on [Matrix].
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@ -183,12 +178,13 @@ public interface LinearSpace<T : Any, A : Ring<T>> {
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override fun buildMatrix(
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rows: Int, columns: Int,
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initializer: A.(i: Int, j: Int) -> T,
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): Matrix<T> = NDStructure.buffered(intArrayOf(rows, columns)) { (i, j) ->
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): Matrix<T> = NDStructure.buffered(intArrayOf(rows, columns), bufferFactory) { (i, j) ->
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algebra.initializer(i, j)
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}.as2D()
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}
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public val real: LinearSpace<Double, RealField> = buffered(RealField, Buffer.Companion::real)
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/**
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* Automatic buffered matrix, unboxed if it is possible
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*/
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@ -12,7 +12,7 @@ public fun <T : Any> LinearSpace<T, Ring<T>>.matrix(rows: Int, columns: Int, var
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@UnstableKMathAPI
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public fun <T : Any> LinearSpace<T, Ring<T>>.vector(vararg elements: T): Vector<T> {
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return buildVector(elements.size, elements::get)
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return buildVector(elements.size) { elements[it] }
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}
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public inline fun <T : Any> LinearSpace<T, Ring<T>>.row(
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@ -1,88 +1,86 @@
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package space.kscience.kmath.linear
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import space.kscience.kmath.operations.RealField
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import space.kscience.kmath.operations.ScaleOperations
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import space.kscience.kmath.structures.RealBuffer
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public object RealLinearSpace : LinearSpace<Double, RealField>, ScaleOperations<Matrix<Double>> {
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override val elementAlgebra: RealField get() = RealField
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public override fun buildMatrix(
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rows: Int,
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columns: Int,
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initializer: (i: Int, j: Int) -> Double,
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): Matrix<Double> {
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val buffer = RealBuffer(rows * columns) { offset -> initializer(offset / columns, offset % columns) }
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return BufferMatrix(rows, columns, buffer)
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}
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public fun Matrix<Double>.toBufferMatrix(): BufferMatrix<Double> = if (this is BufferMatrix) this else {
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buildMatrix(rowNum, colNum) { i, j -> get(i, j) }
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}
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public fun one(rows: Int, columns: Int): Matrix<Double> = VirtualMatrix(rows, columns) { i, j ->
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if (i == j) 1.0 else 0.0
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} + DiagonalFeature
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override fun Matrix<Double>.unaryMinus(): Matrix<Double> = buildMatrix(rowNum, colNum) { i, j -> -get(i, j) }
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public override infix fun Matrix<Double>.dot(other: Matrix<Double>): BufferMatrix<Double> {
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require(colNum == other.rowNum) { "Matrix dot operation dimension mismatch: ($rowNum, $colNum) x (${other.rowNum}, ${other.colNum})" }
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val bufferMatrix = toBufferMatrix()
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val otherBufferMatrix = other.toBufferMatrix()
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return buildMatrix(rowNum, other.colNum) { i, j ->
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var res = 0.0
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for (l in 0 until colNum) {
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res += bufferMatrix[i, l] * otherBufferMatrix[l, j]
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}
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res
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}
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}
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public override infix fun Matrix<Double>.dot(vector: Point<Double>): Point<Double> {
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require(colNum == vector.size) { "Matrix dot vector operation dimension mismatch: ($rowNum, $colNum) x (${vector.size})" }
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val bufferMatrix = toBufferMatrix()
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return RealBuffer(rowNum) { i ->
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var res = 0.0
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for (j in 0 until colNum) {
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res += bufferMatrix[i, j] * vector[j]
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}
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res
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}
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}
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override fun add(a: Matrix<Double>, b: Matrix<Double>): BufferMatrix<Double> {
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require(a.rowNum == b.rowNum) { "Row number mismatch in matrix addition. Left side: ${a.rowNum}, right side: ${b.rowNum}" }
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require(a.colNum == b.colNum) { "Column number mismatch in matrix addition. Left side: ${a.colNum}, right side: ${b.colNum}" }
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val aBufferMatrix = a.toBufferMatrix()
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val bBufferMatrix = b.toBufferMatrix()
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return buildMatrix(a.rowNum, a.colNum) { i, j ->
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aBufferMatrix[i, j] + bBufferMatrix[i, j]
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}
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}
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override fun scale(a: Matrix<Double>, value: Double): BufferMatrix<Double> {
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val bufferMatrix = a.toBufferMatrix()
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return buildMatrix(a.rowNum, a.colNum) { i, j -> bufferMatrix[i, j] * value }
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}
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override fun Matrix<Double>.times(value: Double): BufferMatrix<Double> = scale(this, value)
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//public object RealLinearSpace:
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//public object RealLinearSpace : LinearSpace<Double, RealField>, ScaleOperations<Matrix<Double>> {
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//
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// override fun multiply(a: Matrix<Double>, k: Number): BufferMatrix<Double> {
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// val aBufferMatrix = a.toBufferMatrix()
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// return produce(a.rowNum, a.colNum) { i, j -> aBufferMatrix[i, j] * k.toDouble() }
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// override val elementAlgebra: RealField get() = RealField
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//
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// public override fun buildMatrix(
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// rows: Int,
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// columns: Int,
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// initializer: (i: Int, j: Int) -> Double,
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// ): Matrix<Double> {
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// val buffer = RealBuffer(rows * columns) { offset -> initializer(offset / columns, offset % columns) }
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// return BufferMatrix(rows, columns, buffer)
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// }
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//
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// override fun divide(a: Matrix<Double>, k: Number): BufferMatrix<Double> {
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// val aBufferMatrix = a.toBufferMatrix()
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// return produce(a.rowNum, a.colNum) { i, j -> aBufferMatrix[i, j] / k.toDouble() }
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// public fun Matrix<Double>.toBufferMatrix(): BufferMatrix<Double> = if (this is BufferMatrix) this else {
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// buildMatrix(rowNum, colNum) { i, j -> get(i, j) }
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// }
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}
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//
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// public fun one(rows: Int, columns: Int): Matrix<Double> = VirtualMatrix(rows, columns) { i, j ->
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// if (i == j) 1.0 else 0.0
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// } + DiagonalFeature
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//
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// override fun Matrix<Double>.unaryMinus(): Matrix<Double> = buildMatrix(rowNum, colNum) { i, j -> -get(i, j) }
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//
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// public override infix fun Matrix<Double>.dot(other: Matrix<Double>): BufferMatrix<Double> {
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// require(colNum == other.rowNum) { "Matrix dot operation dimension mismatch: ($rowNum, $colNum) x (${other.rowNum}, ${other.colNum})" }
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// val bufferMatrix = toBufferMatrix()
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// val otherBufferMatrix = other.toBufferMatrix()
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// return buildMatrix(rowNum, other.colNum) { i, j ->
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// var res = 0.0
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// for (l in 0 until colNum) {
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// res += bufferMatrix[i, l] * otherBufferMatrix[l, j]
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// }
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// res
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// }
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// }
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//
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// public override infix fun Matrix<Double>.dot(vector: Point<Double>): Point<Double> {
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// require(colNum == vector.size) { "Matrix dot vector operation dimension mismatch: ($rowNum, $colNum) x (${vector.size})" }
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// val bufferMatrix = toBufferMatrix()
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// return RealBuffer(rowNum) { i ->
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// var res = 0.0
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// for (j in 0 until colNum) {
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// res += bufferMatrix[i, j] * vector[j]
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// }
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// res
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// }
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// }
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//
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// override fun add(a: Matrix<Double>, b: Matrix<Double>): BufferMatrix<Double> {
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// require(a.rowNum == b.rowNum) { "Row number mismatch in matrix addition. Left side: ${a.rowNum}, right side: ${b.rowNum}" }
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// require(a.colNum == b.colNum) { "Column number mismatch in matrix addition. Left side: ${a.colNum}, right side: ${b.colNum}" }
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// val aBufferMatrix = a.toBufferMatrix()
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// val bBufferMatrix = b.toBufferMatrix()
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// return buildMatrix(a.rowNum, a.colNum) { i, j ->
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// aBufferMatrix[i, j] + bBufferMatrix[i, j]
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// }
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// }
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//
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// override fun scale(a: Matrix<Double>, value: Double): BufferMatrix<Double> {
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// val bufferMatrix = a.toBufferMatrix()
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// return buildMatrix(a.rowNum, a.colNum) { i, j -> bufferMatrix[i, j] * value }
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// }
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//
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// override fun Matrix<Double>.times(value: Double): BufferMatrix<Double> = scale(this, value)
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//
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////
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//// override fun multiply(a: Matrix<Double>, k: Number): BufferMatrix<Double> {
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//// val aBufferMatrix = a.toBufferMatrix()
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//// return produce(a.rowNum, a.colNum) { i, j -> aBufferMatrix[i, j] * k.toDouble() }
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//// }
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////
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//// override fun divide(a: Matrix<Double>, k: Number): BufferMatrix<Double> {
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//// val aBufferMatrix = a.toBufferMatrix()
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//// return produce(a.rowNum, a.colNum) { i, j -> aBufferMatrix[i, j] / k.toDouble() }
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//// }
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//}
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/**
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* Partially optimized real-valued matrix
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*/
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public val LinearSpace.Companion.real: RealLinearSpace get() = RealLinearSpace
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///**
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// * Partially optimized real-valued matrix
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// */
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//public val LinearSpace.Companion.real: RealLinearSpace get() = RealLinearSpace
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@ -52,7 +52,7 @@ public interface NDStructure<T> {
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* optimize operations and performance. If the feature is not present, null is defined.
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*/
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@UnstableKMathAPI
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public fun <T : Any> getFeature(type: KClass<T>): T? = null
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public fun <F : Any> getFeature(type: KClass<F>): F? = null
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public companion object {
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/**
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@ -4,6 +4,7 @@ import org.ejml.simple.SimpleMatrix
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import space.kscience.kmath.linear.*
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import space.kscience.kmath.misc.UnstableKMathAPI
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import space.kscience.kmath.nd.getFeature
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import space.kscience.kmath.operations.RealField
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import space.kscience.kmath.operations.ScaleOperations
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/**
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@ -11,7 +12,9 @@ import space.kscience.kmath.operations.ScaleOperations
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*
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* @author Iaroslav Postovalov
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*/
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public object EjmlLinearSpace : LinearSpace<Double, EjmlMatrix>, ScaleOperations<Matrix<Double>> {
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public object EjmlLinearSpace : LinearSpace<Double, RealField>, ScaleOperations<Matrix<Double>> {
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override val elementAlgebra: RealField get() = RealField
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/**
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* Converts this matrix to EJML one.
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@ -25,43 +28,74 @@ public object EjmlLinearSpace : LinearSpace<Double, EjmlMatrix>, ScaleOperations
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/**
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* Converts this vector to EJML one.
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*/
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public fun Point<Double>.toEjml(): EjmlVector =
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if (this is EjmlVector) this else EjmlVector(SimpleMatrix(size, 1).also {
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public fun Vector<Double>.toEjml(): EjmlVector = when (this) {
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is EjmlVector -> this
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else -> EjmlVector(SimpleMatrix(size, 1).also {
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(0 until it.numRows()).forEach { row -> it[row, 0] = get(row) }
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})
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}
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override fun buildMatrix(rows: Int, columns: Int, initializer: (i: Int, j: Int) -> Double): EjmlMatrix =
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override fun buildMatrix(rows: Int, columns: Int, initializer: RealField.(i: Int, j: Int) -> Double): EjmlMatrix =
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EjmlMatrix(SimpleMatrix(rows, columns).also {
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(0 until rows).forEach { row ->
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(0 until columns).forEach { col -> it[row, col] = initializer(row, col) }
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(0 until columns).forEach { col -> it[row, col] = RealField.initializer(row, col) }
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}
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})
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override fun buildVector(size: Int, initializer: (Int) -> Double): Point<Double> =
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override fun buildVector(size: Int, initializer: RealField.(Int) -> Double): Vector<Double> =
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EjmlVector(SimpleMatrix(size, 1).also {
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(0 until it.numRows()).forEach { row -> it[row, 0] = initializer(row) }
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})
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private fun SimpleMatrix.wrapMatrix() = EjmlMatrix(this)
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private fun SimpleMatrix.wrapVector() = EjmlVector(this)
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override fun Matrix<Double>.unaryMinus(): Matrix<Double> = this*(-1)
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override fun Matrix<Double>.unaryMinus(): Matrix<Double> = this * (-1)
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public override fun Matrix<Double>.dot(other: Matrix<Double>): EjmlMatrix =
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EjmlMatrix(toEjml().origin.mult(other.toEjml().origin))
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public override fun Matrix<Double>.dot(vector: Point<Double>): EjmlVector =
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public override fun Matrix<Double>.dot(vector: Vector<Double>): EjmlVector =
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EjmlVector(toEjml().origin.mult(vector.toEjml().origin))
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public override fun add(a: Matrix<Double>, b: Matrix<Double>): EjmlMatrix =
|
||||
EjmlMatrix(a.toEjml().origin + b.toEjml().origin)
|
||||
|
||||
public override operator fun Matrix<Double>.minus(b: Matrix<Double>): EjmlMatrix =
|
||||
EjmlMatrix(toEjml().origin - b.toEjml().origin)
|
||||
public override operator fun Matrix<Double>.minus(other: Matrix<Double>): EjmlMatrix =
|
||||
EjmlMatrix(toEjml().origin - other.toEjml().origin)
|
||||
|
||||
public override fun scale(a: Matrix<Double>, value: Double): EjmlMatrix =
|
||||
buildMatrix(a.rowNum, a.colNum) { i, j -> a[i, j] * value }
|
||||
a.toEjml().origin.scale(value).wrapMatrix()
|
||||
|
||||
public override operator fun Matrix<Double>.times(value: Double): EjmlMatrix =
|
||||
EjmlMatrix(toEjml().origin.scale(value))
|
||||
|
||||
override fun Vector<Double>.unaryMinus(): EjmlVector =
|
||||
toEjml().origin.negative().wrapVector()
|
||||
|
||||
override fun Matrix<Double>.plus(other: Matrix<Double>): Matrix<Double> {
|
||||
TODO("Not yet implemented")
|
||||
}
|
||||
|
||||
override fun Vector<Double>.plus(other: Vector<Double>): Vector<Double> {
|
||||
TODO("Not yet implemented")
|
||||
}
|
||||
|
||||
override fun Vector<Double>.minus(other: Vector<Double>): Vector<Double> {
|
||||
TODO("Not yet implemented")
|
||||
}
|
||||
|
||||
override fun Double.times(m: Matrix<Double>): Matrix<Double> {
|
||||
TODO("Not yet implemented")
|
||||
}
|
||||
|
||||
override fun Vector<Double>.times(value: Double): Vector<Double> {
|
||||
TODO("Not yet implemented")
|
||||
}
|
||||
|
||||
override fun Double.times(v: Vector<Double>): Vector<Double> {
|
||||
TODO("Not yet implemented")
|
||||
}
|
||||
|
||||
public override fun add(a: Matrix<Double>, b: Matrix<Double>): EjmlMatrix =
|
||||
EjmlMatrix(a.toEjml().origin + b.toEjml().origin)
|
||||
}
|
||||
|
||||
/**
|
||||
|
@ -85,7 +85,7 @@ public class EjmlMatrix(public val origin: SimpleMatrix) : Matrix<Double> {
|
||||
|
||||
override fun equals(other: Any?): Boolean {
|
||||
if (this === other) return true
|
||||
if (other !is Matrix<*>) return false
|
||||
if (other !is NDStructure<*>) return false
|
||||
return NDStructure.contentEquals(this, other)
|
||||
}
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user