Left and right-side operations in Algebra
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package scientifik.kmath.expressions
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import scientifik.kmath.operations.NumericAlgebra
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import scientifik.kmath.operations.RealField
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/**
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* A syntax tree node for mathematical expressions
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*/
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sealed class MathSyntaxTree
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/**
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* A node containing unparsed string
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*/
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data class SingularNode(val value: String) : MathSyntaxTree()
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/**
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* A node containing a number
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*/
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data class NumberNode(val value: Number) : MathSyntaxTree()
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/**
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* A node containing an unary operation
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*/
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data class UnaryNode(val operation: String, val value: MathSyntaxTree) : MathSyntaxTree() {
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companion object {
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const val ABS_OPERATION = "abs"
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//TODO add operations
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}
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}
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/**
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* A node containing binary operation
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*/
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data class BinaryNode(val operation: String, val left: MathSyntaxTree, val right: MathSyntaxTree) : MathSyntaxTree() {
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companion object
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}
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//TODO add a function with positional arguments
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//TODO add a function with named arguments
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fun <T> NumericAlgebra<T>.compile(node: MathSyntaxTree): T {
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return when (node) {
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is NumberNode -> number(node.value)
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is SingularNode -> raw(node.value)
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is UnaryNode -> unaryOperation(node.operation, compile(node.value))
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is BinaryNode -> when {
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node.left is NumberNode && node.right is NumberNode -> {
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val number = RealField.binaryOperation(
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node.operation,
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node.left.value.toDouble(),
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node.right.value.toDouble()
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)
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number(number)
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}
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node.left is NumberNode -> leftSideNumberOperation(node.operation, node.left.value, compile(node.right))
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node.right is NumberNode -> rightSideNumberOperation(node.operation, compile(node.left), node.right.value)
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else -> binaryOperation(node.operation, compile(node.left), compile(node.right))
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}
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}
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}
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@ -1,52 +0,0 @@
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package scientifik.kmath.expressions
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import scientifik.kmath.operations.NumericAlgebra
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/**
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* A syntax tree node for mathematical expressions
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*/
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sealed class SyntaxTreeNode
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/**
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* A node containing unparsed string
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*/
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data class SingularNode(val value: String) : SyntaxTreeNode()
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/**
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* A node containing a number
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*/
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data class NumberNode(val value: Number) : SyntaxTreeNode()
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/**
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* A node containing an unary operation
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*/
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data class UnaryNode(val operation: String, val value: SyntaxTreeNode) : SyntaxTreeNode() {
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companion object {
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const val ABS_OPERATION = "abs"
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const val SIN_OPERATION = "sin"
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const val COS_OPERATION = "cos"
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const val EXP_OPERATION = "exp"
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const val LN_OPERATION = "ln"
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//TODO add operations
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}
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}
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/**
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* A node containing binary operation
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*/
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data class BinaryNode(val operation: String, val left: SyntaxTreeNode, val right: SyntaxTreeNode) : SyntaxTreeNode() {
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companion object
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}
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//TODO add a function with positional arguments
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//TODO add a function with named arguments
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fun <T> NumericAlgebra<T>.compile(node: SyntaxTreeNode): T{
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return when (node) {
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is NumberNode -> number(node.value)
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is SingularNode -> raw(node.value)
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is UnaryNode -> unaryOperation(node.operation, compile(node.value))
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is BinaryNode -> binaryOperation(node.operation, compile(node.left), compile(node.right))
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}
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}
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@ -31,6 +31,12 @@ interface NumericAlgebra<T> : Algebra<T> {
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* Wrap a number
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* Wrap a number
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*/
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*/
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fun number(value: Number): T
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fun number(value: Number): T
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fun leftSideNumberOperation(operation: String, left: Number, right: T): T =
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binaryOperation(operation, number(left), right)
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fun rightSideNumberOperation(operation: String, left: T, right: Number): T =
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leftSideNumberOperation(operation, right, left)
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}
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}
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/**
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/**
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@ -128,8 +134,14 @@ interface Ring<T> : Space<T>, RingOperations<T>, NumericAlgebra<T> {
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override fun number(value: Number): T = one * value.toDouble()
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override fun number(value: Number): T = one * value.toDouble()
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// those operators are blocked by type conflict in RealField
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override fun leftSideNumberOperation(operation: String, left: Number, right: T): T = when (operation) {
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// operator fun T.plus(b: Number) = this.plus(b * one)
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RingOperations.TIMES_OPERATION -> left * right
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else -> super.leftSideNumberOperation(operation, left, right)
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}
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//TODO those operators are blocked by type conflict in RealField
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// operator fun T.plus(b: Number) = this.plus(b * one)
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// operator fun Number.plus(b: T) = b + this
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// operator fun Number.plus(b: T) = b + this
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//
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//
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// operator fun T.minus(b: Number) = this.minus(b * one)
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// operator fun T.minus(b: Number) = this.minus(b * one)
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@ -10,9 +10,30 @@ interface ExtendedFieldOperations<T> :
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FieldOperations<T>,
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FieldOperations<T>,
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TrigonometricOperations<T>,
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TrigonometricOperations<T>,
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PowerOperations<T>,
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PowerOperations<T>,
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ExponentialOperations<T>
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ExponentialOperations<T> {
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interface ExtendedField<T> : ExtendedFieldOperations<T>, Field<T>
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override fun tan(arg: T): T = sin(arg) / cos(arg)
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override fun unaryOperation(operation: String, arg: T): T = when (operation) {
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TrigonometricOperations.COS_OPERATION -> cos(arg)
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TrigonometricOperations.SIN_OPERATION -> sin(arg)
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PowerOperations.SQRT_OPERATION -> sqrt(arg)
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ExponentialOperations.EXP_OPERATION -> exp(arg)
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ExponentialOperations.LN_OPERATION -> ln(arg)
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else -> super.unaryOperation(operation, arg)
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}
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}
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interface ExtendedField<T> : ExtendedFieldOperations<T>, Field<T> {
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override fun rightSideNumberOperation(operation: String, left: T, right: Number): T {
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return when (operation) {
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PowerOperations.POW_OPERATION -> power(left, right)
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else -> super.rightSideNumberOperation(operation, left, right)
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}
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}
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}
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/**
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/**
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* Real field element wrapping double.
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* Real field element wrapping double.
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override inline fun sin(arg: Double) = kotlin.math.sin(arg)
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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 cos(arg: Double) = kotlin.math.cos(arg)
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override inline fun tan(arg: Double) = kotlin.math.tan(arg)
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override inline fun power(arg: Double, pow: Number) = arg.kpow(pow.toDouble())
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override inline fun power(arg: Double, pow: Number) = arg.kpow(pow.toDouble())
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override inline fun sin(arg: Float) = kotlin.math.sin(arg)
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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 cos(arg: Float) = kotlin.math.cos(arg)
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override inline fun tan(arg: Float): Float = kotlin.math.tan(arg)
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override inline fun power(arg: Float, pow: Number) = arg.pow(pow.toFloat())
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override inline fun power(arg: Float, pow: Number) = arg.pow(pow.toFloat())
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override inline fun exp(arg: Float) = kotlin.math.exp(arg)
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override inline fun exp(arg: Float) = kotlin.math.exp(arg)
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* It also allows to override behavior for optional operations
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* It also allows to override behavior for optional operations
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*
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*
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*/
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*/
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interface TrigonometricOperations<T> : FieldOperations<T> {
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interface TrigonometricOperations<T> {
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fun sin(arg: T): T
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fun sin(arg: T): T
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fun cos(arg: T): T
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fun cos(arg: T): T
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fun tg(arg: T): T = sin(arg) / cos(arg)
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fun tan(arg: T): T
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fun ctg(arg: T): T = cos(arg) / sin(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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}
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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>>> 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>>> 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>>> tan(arg: T): T = arg.context.tan(arg)
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fun <T : MathElement<out TrigonometricOperations<T>>> ctg(arg: T): T = arg.context.ctg(arg)
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/* Power and roots */
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/* Power and roots */
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/**
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/**
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* A context extension to include power operations like square roots, etc
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* A context extension to include power operations like square roots, etc
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*/
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*/
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interface PowerOperations<T> : Algebra<T> {
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interface PowerOperations<T> {
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fun power(arg: T, pow: Number): 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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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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infix fun T.pow(pow: Number) = power(this, pow)
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companion object {
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const val POW_OPERATION = "pow"
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const val SQRT_OPERATION = "sqrt"
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}
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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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infix fun <T : MathElement<out PowerOperations<T>>> T.pow(power: Double): T = context.power(this, power)
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/* Exponential */
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/* Exponential */
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interface ExponentialOperations<T>: Algebra<T> {
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interface ExponentialOperations<T> {
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fun exp(arg: T): T
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fun exp(arg: T): T
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fun ln(arg: T): T
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fun ln(arg: T): T
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companion object {
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const val EXP_OPERATION = "exp"
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const val LN_OPERATION = "ln"
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}
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}
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}
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fun <T : MathElement<out ExponentialOperations<T>>> exp(arg: T): T = arg.context.exp(arg)
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fun <T : MathElement<out ExponentialOperations<T>>> exp(arg: T): T = arg.context.exp(arg)
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