forked from kscience/kmath
Improve support of string-identified operations API, rework trigonometric operations algebra part: introduce inverse trigonometric operations, rename tg to tan
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5dc07febe3
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2e5c13aea9
@ -59,8 +59,10 @@ class DerivativeStructureField(
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override fun divide(a: DerivativeStructure, b: DerivativeStructure): DerivativeStructure = a.divide(b)
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override fun sin(arg: DerivativeStructure): DerivativeStructure = arg.sin()
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override fun cos(arg: DerivativeStructure): DerivativeStructure = arg.cos()
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override fun asin(arg: DerivativeStructure): DerivativeStructure = arg.asin()
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override fun acos(arg: DerivativeStructure): DerivativeStructure = arg.acos()
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override fun atan(arg: DerivativeStructure): DerivativeStructure = arg.atan()
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override fun power(arg: DerivativeStructure, pow: Number): DerivativeStructure = when (pow) {
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is Double -> arg.pow(pow)
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@ -136,6 +138,3 @@ object DiffExpressionContext : ExpressionContext<Double, DiffExpression>, Field<
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override fun divide(a: DiffExpression, b: DiffExpression) =
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DiffExpression { a.function(this) / b.function(this) }
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}
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@ -8,6 +8,8 @@ import scientifik.memory.MemorySpec
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import scientifik.memory.MemoryWriter
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import kotlin.math.*
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private val PI_DIV_2 = Complex(PI / 2, 0)
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/**
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* A field for complex numbers
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*/
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@ -30,9 +32,11 @@ object ComplexField : ExtendedFieldOperations<Complex>, Field<Complex> {
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return Complex((a.re * b.re + a.im * b.im) / norm, (a.re * b.im - a.im * b.re) / norm)
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}
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override fun sin(arg: Complex): Complex = i / 2 * (exp(-i * arg) - exp(i * arg))
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override fun sin(arg: Complex): Complex = i * (exp(-i * arg) - exp(i * arg)) / 2
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override fun cos(arg: Complex): Complex = (exp(-i * arg) + exp(i * arg)) / 2
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override fun asin(arg: Complex): Complex = -i * ln(sqrt(one - arg pow 2) + i * arg)
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override fun acos(arg: Complex): Complex = PI_DIV_2 + i * ln(sqrt(one - arg pow 2) + i * arg)
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override fun atan(arg: Complex): Complex = i * (ln(one - i * arg) - ln(one + i * arg)) / 2
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override fun power(arg: Complex, pow: Number): Complex =
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arg.r.pow(pow.toDouble()) * (cos(pow.toDouble() * arg.theta) + i * sin(pow.toDouble() * arg.theta))
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@ -8,7 +8,7 @@ import kotlin.math.pow as kpow
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*/
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interface ExtendedFieldOperations<T> :
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FieldOperations<T>,
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TrigonometricOperations<T>,
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InverseTrigonometricOperations<T>,
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PowerOperations<T>,
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ExponentialOperations<T>
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@ -44,6 +44,10 @@ object RealField : ExtendedField<Double>, Norm<Double, Double> {
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override inline fun sin(arg: Double) = kotlin.math.sin(arg)
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override inline fun cos(arg: Double) = kotlin.math.cos(arg)
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override inline fun tan(arg: Double): Double = kotlin.math.tan(arg)
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override inline fun acos(arg: Double): Double = kotlin.math.acos(arg)
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override inline fun asin(arg: Double): Double = kotlin.math.asin(arg)
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override inline fun atan(arg: Double): Double = kotlin.math.atan(arg)
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override inline fun power(arg: Double, pow: Number) = arg.kpow(pow.toDouble())
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@ -75,6 +79,10 @@ object FloatField : ExtendedField<Float>, Norm<Float, Float> {
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override inline fun sin(arg: Float) = kotlin.math.sin(arg)
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override inline fun cos(arg: Float) = kotlin.math.cos(arg)
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override inline fun tan(arg: Float) = kotlin.math.tan(arg)
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override inline fun acos(arg: Float) = kotlin.math.acos(arg)
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override inline fun asin(arg: Float) = kotlin.math.asin(arg)
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override inline fun atan(arg: Float) = kotlin.math.atan(arg)
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override inline fun power(arg: Float, pow: Number) = arg.pow(pow.toFloat())
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@ -13,16 +13,33 @@ package scientifik.kmath.operations
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interface TrigonometricOperations<T> : FieldOperations<T> {
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fun sin(arg: T): T
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fun cos(arg: T): T
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fun tan(arg: T): T = sin(arg) / cos(arg)
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fun tg(arg: T): T = sin(arg) / cos(arg)
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companion object {
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const val SIN_OPERATION = "sin"
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const val COS_OPERATION = "cos"
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const val TAN_OPERATION = "tan"
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}
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}
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fun ctg(arg: T): T = cos(arg) / sin(arg)
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interface InverseTrigonometricOperations<T> : TrigonometricOperations<T> {
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fun asin(arg: T): T
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fun acos(arg: T): T
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fun atan(arg: T): T
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companion object {
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const val ASIN_OPERATION = "asin"
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const val ACOS_OPERATION = "acos"
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const val ATAN_OPERATION = "atan"
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}
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}
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fun <T : MathElement<out TrigonometricOperations<T>>> sin(arg: T): T = arg.context.sin(arg)
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fun <T : MathElement<out TrigonometricOperations<T>>> cos(arg: T): T = arg.context.cos(arg)
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fun <T : MathElement<out TrigonometricOperations<T>>> tg(arg: T): T = arg.context.tg(arg)
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fun <T : MathElement<out TrigonometricOperations<T>>> ctg(arg: T): T = arg.context.ctg(arg)
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fun <T : MathElement<out TrigonometricOperations<T>>> tan(arg: T): T = arg.context.tan(arg)
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fun <T : MathElement<out InverseTrigonometricOperations<T>>> asin(arg: T): T = arg.context.asin(arg)
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fun <T : MathElement<out InverseTrigonometricOperations<T>>> acos(arg: T): T = arg.context.acos(arg)
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fun <T : MathElement<out InverseTrigonometricOperations<T>>> atan(arg: T): T = arg.context.atan(arg)
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/* Power and roots */
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@ -32,8 +49,11 @@ fun <T : MathElement<out TrigonometricOperations<T>>> ctg(arg: T): T = arg.conte
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interface PowerOperations<T> : Algebra<T> {
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fun power(arg: T, pow: Number): T
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fun sqrt(arg: T) = power(arg, 0.5)
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infix fun T.pow(pow: Number) = power(this, pow)
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companion object {
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const val SQRT_OPERATION = "sqrt"
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}
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}
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infix fun <T : MathElement<out PowerOperations<T>>> T.pow(power: Double): T = context.power(this, power)
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@ -42,7 +62,7 @@ fun <T : MathElement<out PowerOperations<T>>> sqr(arg: T): T = arg pow 2.0
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/* Exponential */
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interface ExponentialOperations<T>: Algebra<T> {
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interface ExponentialOperations<T> : Algebra<T> {
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fun exp(arg: T): T
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fun ln(arg: T): T
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}
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@ -79,6 +79,13 @@ class ComplexNDField(override val shape: IntArray) :
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override fun cos(arg: NDBuffer<Complex>) = map(arg) { cos(it) }
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override fun tan(arg: NDBuffer<Complex>): NDBuffer<Complex> = map(arg) { tan(it) }
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override fun asin(arg: NDBuffer<Complex>): NDBuffer<Complex> = map(arg) { asin(it) }
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override fun acos(arg: NDBuffer<Complex>): NDBuffer<Complex> = map(arg) {acos(it)}
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override fun atan(arg: NDBuffer<Complex>): NDBuffer<Complex> = map(arg) {atan(it)}
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}
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@ -4,7 +4,7 @@ import scientifik.kmath.operations.*
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interface ExtendedNDField<T : Any, F, N : NDStructure<T>> :
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NDField<T, F, N>,
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TrigonometricOperations<N>,
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InverseTrigonometricOperations<N>,
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PowerOperations<N>,
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ExponentialOperations<N>
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where F : ExtendedFieldOperations<T>, F : Field<T>
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@ -9,8 +9,10 @@ import kotlin.math.*
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* A simple field over linear buffers of [Double]
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*/
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object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>> {
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override fun add(a: Buffer<Double>, b: Buffer<Double>): DoubleBuffer {
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require(b.size == a.size) { "The size of the first buffer ${a.size} should be the same as for second one: ${b.size} " }
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return if (a is DoubleBuffer && b is DoubleBuffer) {
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val aArray = a.array
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val bArray = b.array
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@ -22,6 +24,7 @@ object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>> {
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override fun multiply(a: Buffer<Double>, k: Number): DoubleBuffer {
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val kValue = k.toDouble()
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return if (a is DoubleBuffer) {
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val aArray = a.array
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DoubleBuffer(DoubleArray(a.size) { aArray[it] * kValue })
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@ -32,6 +35,7 @@ object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>> {
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override fun multiply(a: Buffer<Double>, b: Buffer<Double>): DoubleBuffer {
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require(b.size == a.size) { "The size of the first buffer ${a.size} should be the same as for second one: ${b.size} " }
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return if (a is DoubleBuffer && b is DoubleBuffer) {
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val aArray = a.array
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val bArray = b.array
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@ -43,6 +47,7 @@ object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>> {
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override fun divide(a: Buffer<Double>, b: Buffer<Double>): DoubleBuffer {
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require(b.size == a.size) { "The size of the first buffer ${a.size} should be the same as for second one: ${b.size} " }
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return if (a is DoubleBuffer && b is DoubleBuffer) {
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val aArray = a.array
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val bArray = b.array
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@ -52,50 +57,68 @@ object RealBufferFieldOperations : ExtendedFieldOperations<Buffer<Double>> {
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}
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}
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override fun sin(arg: Buffer<Double>): DoubleBuffer {
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return if (arg is DoubleBuffer) {
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override fun sin(arg: Buffer<Double>): DoubleBuffer = if (arg is DoubleBuffer) {
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val array = arg.array
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DoubleBuffer(DoubleArray(arg.size) { sin(array[it]) })
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} else {
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DoubleBuffer(DoubleArray(arg.size) { sin(arg[it]) })
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}
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}
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override fun cos(arg: Buffer<Double>): DoubleBuffer {
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return if (arg is DoubleBuffer) {
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override fun cos(arg: Buffer<Double>): DoubleBuffer = if (arg is DoubleBuffer) {
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val array = arg.array
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DoubleBuffer(DoubleArray(arg.size) { cos(array[it]) })
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} else {
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DoubleBuffer(DoubleArray(arg.size) { cos(arg[it]) })
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}
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override fun tan(arg: Buffer<Double>): DoubleBuffer = if (arg is DoubleBuffer) {
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val array = arg.array
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DoubleBuffer(DoubleArray(arg.size) { tan(array[it]) })
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} else {
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DoubleBuffer(DoubleArray(arg.size) { tan(arg[it]) })
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}
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override fun power(arg: Buffer<Double>, pow: Number): DoubleBuffer {
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return if (arg is DoubleBuffer) {
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override fun asin(arg: Buffer<Double>): DoubleBuffer = if (arg is DoubleBuffer) {
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val array = arg.array
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DoubleBuffer(DoubleArray(arg.size) { asin(array[it]) })
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} else {
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DoubleBuffer(DoubleArray(arg.size) { asin(arg[it]) })
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}
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override fun acos(arg: Buffer<Double>): DoubleBuffer = if (arg is DoubleBuffer) {
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val array = arg.array
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DoubleBuffer(DoubleArray(arg.size) { acos(array[it]) })
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} else {
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DoubleBuffer(DoubleArray(arg.size) { acos(arg[it]) })
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}
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override fun atan(arg: Buffer<Double>): DoubleBuffer = if (arg is DoubleBuffer) {
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val array = arg.array
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DoubleBuffer(DoubleArray(arg.size) { atan(array[it]) })
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} else {
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DoubleBuffer(DoubleArray(arg.size) { atan(arg[it]) })
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}
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override fun power(arg: Buffer<Double>, pow: Number): DoubleBuffer = if (arg is DoubleBuffer) {
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val array = arg.array
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DoubleBuffer(DoubleArray(arg.size) { array[it].pow(pow.toDouble()) })
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} else {
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DoubleBuffer(DoubleArray(arg.size) { arg[it].pow(pow.toDouble()) })
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}
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}
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override fun exp(arg: Buffer<Double>): DoubleBuffer {
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return if (arg is DoubleBuffer) {
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override fun exp(arg: Buffer<Double>): DoubleBuffer = if (arg is DoubleBuffer) {
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val array = arg.array
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DoubleBuffer(DoubleArray(arg.size) { exp(array[it]) })
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} else {
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DoubleBuffer(DoubleArray(arg.size) { exp(arg[it]) })
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}
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}
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override fun ln(arg: Buffer<Double>): DoubleBuffer {
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return if (arg is DoubleBuffer) {
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override fun ln(arg: Buffer<Double>): DoubleBuffer = if (arg is DoubleBuffer) {
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val array = arg.array
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DoubleBuffer(DoubleArray(arg.size) { ln(array[it]) })
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} else {
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DoubleBuffer(DoubleArray(arg.size) { ln(arg[it]) })
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}
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}
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}
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class RealBufferField(val size: Int) : ExtendedField<Buffer<Double>> {
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@ -119,7 +142,6 @@ class RealBufferField(val size: Int) : ExtendedField<Buffer<Double>> {
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return RealBufferFieldOperations.multiply(a, b)
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}
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override fun divide(a: Buffer<Double>, b: Buffer<Double>): DoubleBuffer {
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require(a.size == size) { "The buffer size ${a.size} does not match context size $size" }
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return RealBufferFieldOperations.divide(a, b)
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@ -135,6 +157,26 @@ class RealBufferField(val size: Int) : ExtendedField<Buffer<Double>> {
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return RealBufferFieldOperations.cos(arg)
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}
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override fun tan(arg: Buffer<Double>): DoubleBuffer {
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require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
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return RealBufferFieldOperations.tan(arg)
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}
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override fun asin(arg: Buffer<Double>): DoubleBuffer {
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require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
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return RealBufferFieldOperations.asin(arg)
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}
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override fun acos(arg: Buffer<Double>): DoubleBuffer {
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require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
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return RealBufferFieldOperations.acos(arg)
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}
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override fun atan(arg: Buffer<Double>): DoubleBuffer {
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require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
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return RealBufferFieldOperations.atan(arg)
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}
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override fun power(arg: Buffer<Double>, pow: Number): DoubleBuffer {
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require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
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return RealBufferFieldOperations.power(arg, pow)
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@ -149,5 +191,4 @@ class RealBufferField(val size: Int) : ExtendedField<Buffer<Double>> {
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require(arg.size == size) { "The buffer size ${arg.size} does not match context size $size" }
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return RealBufferFieldOperations.ln(arg)
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}
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}
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@ -74,6 +74,13 @@ class RealNDField(override val shape: IntArray) :
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override fun cos(arg: NDBuffer<Double>) = map(arg) { cos(it) }
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override fun tan(arg: NDBuffer<Double>): NDBuffer<Double> = map(arg) { tan(it) }
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override fun asin(arg: NDBuffer<Double>): NDBuffer<Double> = map(arg) { asin(it) }
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override fun acos(arg: NDBuffer<Double>): NDBuffer<Double> = map(arg) { acos(it) }
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override fun atan(arg: NDBuffer<Double>): NDBuffer<Double> = map(arg) { atan(it) }
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}
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