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Added abstract rational functions

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Gleb Minaev 2022-03-10 01:44:14 +03:00
parent 2483c56f1c
commit ab9dcd83b9
2 changed files with 515 additions and 8 deletions
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16
kmath-functions/src/commonMain/kotlin/space/kscience/kmath/functions/AbstractPolynomial.kt
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@ -70,19 +70,19 @@ public interface AbstractPolynomialSpace<C, P: AbstractPolynomial<C>> : Ring<P>
// region Polynomial-integer relation // region Polynomial-integer relation
/** /**
* Returns sum of the constant and the integer represented as polynomial. * Returns sum of the polynomial and the integer represented as polynomial.
* *
* The operation is equivalent to adding [other] copies of unit polynomial to [this]. * The operation is equivalent to adding [other] copies of unit polynomial to [this].
*/ */
public operator fun P.plus(other: Int): P = optimizedAddMultiplied(this, one, other) public operator fun P.plus(other: Int): P = optimizedAddMultiplied(this, one, other)
/** /**
* Returns difference between the constant and the integer represented as polynomial. * Returns difference between the polynomial and the integer represented as polynomial.
* *
* The operation is equivalent to subtraction [other] copies of unit polynomial from [this]. * The operation is equivalent to subtraction [other] copies of unit polynomial from [this].
*/ */
public operator fun P.minus(other: Int): P = optimizedAddMultiplied(this, one, -other) public operator fun P.minus(other: Int): P = optimizedAddMultiplied(this, one, -other)
/** /**
* Returns product of the constant and the integer represented as polynomial. * Returns product of the polynomial and the integer represented as polynomial.
* *
* The operation is equivalent to sum of [other] copies of [this]. * The operation is equivalent to sum of [other] copies of [this].
*/ */
@ -91,19 +91,19 @@ public interface AbstractPolynomialSpace<C, P: AbstractPolynomial<C>> : Ring<P>
// region Integer-polynomial relation // region Integer-polynomial relation
/** /**
* Returns sum of the integer represented as polynomial and the constant. * Returns sum of the integer represented as polynomial and the polynomial.
* *
* The operation is equivalent to adding [this] copies of unit polynomial to [other]. * The operation is equivalent to adding [this] copies of unit polynomial to [other].
*/ */
public operator fun Int.plus(other: P): P = optimizedAddMultiplied(other, one, this) public operator fun Int.plus(other: P): P = optimizedAddMultiplied(other, one, this)
/** /**
* Returns difference between the integer represented as polynomial and the constant. * Returns difference between the integer represented as polynomial and the polynomial.
* *
* The operation is equivalent to subtraction [this] copies of unit polynomial from [other]. * The operation is equivalent to subtraction [this] copies of unit polynomial from [other].
*/ */
public operator fun Int.minus(other: P): P = optimizedAddMultiplied(-other, one, this) public operator fun Int.minus(other: P): P = optimizedAddMultiplied(-other, one, this)
/** /**
* Returns product of the integer represented as polynomial and the constant. * Returns product of the integer represented as polynomial and the polynomial.
* *
* The operation is equivalent to sum of [this] copies of [other]. * The operation is equivalent to sum of [this] copies of [other].
*/ */
@ -254,11 +254,11 @@ public interface AbstractPolynomialSpace<C, P: AbstractPolynomial<C>> : Ring<P>
/** /**
* Instance of zero polynomial (zero of the polynomial ring). * Instance of zero polynomial (zero of the polynomial ring).
*/ */
override val zero: P public override val zero: P
/** /**
* Instance of unit polynomial (unit of the polynomial ring). * Instance of unit polynomial (unit of the polynomial ring).
*/ */
override val one: P public override val one: P
/** /**
* Checks equality of the polynomials. * Checks equality of the polynomials.

507
kmath-functions/src/commonMain/kotlin/space/kscience/kmath/functions/AbstractRationalFunction.kt Normal file
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@ -0,0 +1,507 @@
/*
* Copyright 2018-2021 KMath contributors.
* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
*/
package space.kscience.kmath.functions
import space.kscience.kmath.functions.AbstractPolynomialSpace.Companion.optimizedAddMultiplied
import space.kscience.kmath.functions.AbstractPolynomialSpace.Companion.optimizedMultiply
import space.kscience.kmath.operations.*
import kotlin.js.JsName
import kotlin.jvm.JvmName
/**
* Abstraction of rational function.
*/
public interface AbstractRationalFunction<C, P: AbstractPolynomial<C>>
@Suppress("INAPPLICABLE_JVM_NAME", "PARAMETER_NAME_CHANGED_ON_OVERRIDE")
public interface AbstractRationalFunctionalSpace<C, P: AbstractPolynomial<C>, R: AbstractRationalFunction<C, P>> : Ring<R> {
// region Constant-integer relation
/**
* Returns sum of the constant and the integer represented as constant (member of underlying ring).
*
* The operation is equivalent to adding [other] copies of unit of underlying ring to [this].
*/
@JvmName("constantIntPlus")
public operator fun C.plus(other: Int): C
/**
* Returns difference between the constant and the integer represented as constant (member of underlying ring).
*
* The operation is equivalent to subtraction [other] copies of unit of underlying ring from [this].
*/
@JvmName("constantIntMinus")
public operator fun C.minus(other: Int): C
/**
* Returns product of the constant and the integer represented as constant (member of underlying ring).
*
* The operation is equivalent to sum of [other] copies of [this].
*/
@JvmName("constantIntTimes")
public operator fun C.times(other: Int): C
// endregion
// region Integer-constant relation
/**
* Returns sum of the integer represented as constant (member of underlying ring) and the constant.
*
* The operation is equivalent to adding [this] copies of unit of underlying ring to [other].
*/
@JvmName("intConstantPlus")
public operator fun Int.plus(other: C): C
/**
* Returns difference between the integer represented as constant (member of underlying ring) and the constant.
*
* The operation is equivalent to subtraction [this] copies of unit of underlying ring from [other].
*/
@JvmName("intConstantMinus")
public operator fun Int.minus(other: C): C
/**
* Returns product of the integer represented as constant (member of underlying ring) and the constant.
*
* The operation is equivalent to sum of [this] copies of [other].
*/
@JvmName("intConstantTimes")
public operator fun Int.times(other: C): C
// endregion
// region Polynomial-integer relation
/**
* Returns sum of the constant and the integer represented as polynomial.
*
* The operation is equivalent to adding [other] copies of unit polynomial to [this].
*/
public operator fun P.plus(other: Int): P
/**
* Returns difference between the constant and the integer represented as polynomial.
*
* The operation is equivalent to subtraction [other] copies of unit polynomial from [this].
*/
public operator fun P.minus(other: Int): P
/**
* Returns product of the constant and the integer represented as polynomial.
*
* The operation is equivalent to sum of [other] copies of [this].
*/
public operator fun P.times(other: Int): P
// endregion
// region Integer-polynomial relation
/**
* Returns sum of the integer represented as polynomial and the constant.
*
* The operation is equivalent to adding [this] copies of unit polynomial to [other].
*/
public operator fun Int.plus(other: P): P
/**
* Returns difference between the integer represented as polynomial and the constant.
*
* The operation is equivalent to subtraction [this] copies of unit polynomial from [other].
*/
public operator fun Int.minus(other: P): P
/**
* Returns product of the integer represented as polynomial and the constant.
*
* The operation is equivalent to sum of [this] copies of [other].
*/
public operator fun Int.times(other: P): P
// endregion
// region Rational-integer relation
/**
* Returns sum of the rational function and the integer represented as rational function.
*
* The operation is equivalent to adding [other] copies of unit polynomial to [this].
*/
public operator fun R.plus(other: Int): R = optimizedAddMultiplied(this, one, other)
/**
* Returns difference between the rational function and the integer represented as rational function.
*
* The operation is equivalent to subtraction [other] copies of unit polynomial from [this].
*/
public operator fun R.minus(other: Int): R = optimizedAddMultiplied(this, one, -other)
/**
* Returns product of the rational function and the integer represented as rational function.
*
* The operation is equivalent to sum of [other] copies of [this].
*/
public operator fun R.times(other: Int): R = optimizedMultiply(this, other)
// endregion
// region Integer-Rational relation
/**
* Returns sum of the integer represented as rational function and the rational function.
*
* The operation is equivalent to adding [this] copies of unit polynomial to [other].
*/
public operator fun Int.plus(other: R): R = optimizedAddMultiplied(other, one, this)
/**
* Returns difference between the integer represented as rational function and the rational function.
*
* The operation is equivalent to subtraction [this] copies of unit polynomial from [other].
*/
public operator fun Int.minus(other: R): R = optimizedAddMultiplied(-other, one, this)
/**
* Returns product of the integer represented as rational function and the rational function.
*
* The operation is equivalent to sum of [this] copies of [other].
*/
public operator fun Int.times(other: R): R = optimizedMultiply(other, this)
// endregion
// region Constant-constant relation
/**
* Returns the same constant.
*/
@JvmName("constantUnaryPlus")
@JsName("constantUnaryPlus")
public operator fun C.unaryPlus(): C = this
/**
* Returns negation of the constant.
*/
@JvmName("constantUnaryMinus")
@JsName("constantUnaryMinus")
public operator fun C.unaryMinus(): C
/**
* Returns sum of the constants.
*/
@JvmName("constantPlus")
@JsName("constantPlus")
public operator fun C.plus(other: C): C
/**
* Returns difference of the constants.
*/
@JvmName("constantMinus")
@JsName("constantMinus")
public operator fun C.minus(other: C): C
/**
* Returns product of the constants.
*/
@JvmName("constantTimes")
@JsName("constantTimes")
public operator fun C.times(other: C): C
/**
* Check if the instant is zero constant.
*/
@JvmName("constantIsZero")
public fun C.isZero(): Boolean
/**
* Check if the instant is NOT zero constant.
*/
@JvmName("constantIsNotZero")
public fun C.isNotZero(): Boolean
/**
* Check if the instant is unit constant.
*/
@JvmName("constantIsOne")
public fun C.isOne(): Boolean
/**
* Check if the instant is NOT unit constant.
*/
@JvmName("constantIsNotOne")
public fun C.isNotOne(): Boolean
/**
* Check if the instant is minus unit constant.
*/
@JvmName("constantIsMinusOne")
public fun C.isMinusOne(): Boolean
/**
* Check if the instant is NOT minus unit constant.
*/
@JvmName("constantIsNotMinusOne")
public fun C.isNotMinusOne(): Boolean
// endregion
// region Constant-polynomial relation
/**
* Returns sum of the constant represented as polynomial and the polynomial.
*/
public operator fun C.plus(other: P): P
/**
* Returns difference between the constant represented as polynomial and the polynomial.
*/
public operator fun C.minus(other: P): P
/**
* Returns product of the constant represented as polynomial and the polynomial.
*/
public operator fun C.times(other: P): P
// endregion
// region Polynomial-constant relation
/**
* Returns sum of the constant represented as polynomial and the polynomial.
*/
public operator fun P.plus(other: C): P
/**
* Returns difference between the constant represented as polynomial and the polynomial.
*/
public operator fun P.minus(other: C): P
/**
* Returns product of the constant represented as polynomial and the polynomial.
*/
public operator fun P.times(other: C): P
// endregion
// region Polynomial-polynomial relation
/**
* Returns the same polynomial.
*/
public operator fun P.unaryPlus(): P = this
/**
* Returns negation of the polynomial.
*/
public operator fun P.unaryMinus(): P
/**
* Returns sum of the polynomials.
*/
public operator fun P.plus(other: P): P
/**
* Returns difference of the polynomials.
*/
public operator fun P.minus(other: P): P
/**
* Returns product of the polynomials.
*/
public operator fun P.times(other: P): P
/**
* Check if the instant is zero polynomial.
*/
public fun P.isZero(): Boolean = this == zeroPolynomial
/**
* Check if the instant is NOT zero polynomial.
*/
public fun P.isNotZero(): Boolean = this != zeroPolynomial
/**
* Check if the instant is unit polynomial.
*/
public fun P.isOne(): Boolean = this == onePolynomial
/**
* Check if the instant is NOT unit polynomial.
*/
public fun P.isNotOne(): Boolean = this != onePolynomial
/**
* Check if the instant is minus unit polynomial.
*/
public fun P.isMinusOne(): Boolean = this == -onePolynomial
/**
* Check if the instant is NOT minus unit polynomial.
*/
public fun P.isNotMinusOne(): Boolean = this != -onePolynomial
/**
* Instance of zero polynomial (zero of the polynomial ring).
*/
public val zeroPolynomial: P
/**
* Instance of unit polynomial (unit of the polynomial ring).
*/
public val onePolynomial: P
/**
* Checks equality of the polynomials.
*/
@Suppress("EXTENSION_SHADOWED_BY_MEMBER", "CovariantEquals")
public fun P.equals(other: P): Boolean
// endregion
// region Constant-rational relation
/**
* Returns sum of the constant represented as rational function and the rational function.
*/
public operator fun C.plus(other: R): R
/**
* Returns difference between the constant represented as polynomial and the rational function.
*/
public operator fun C.minus(other: R): R
/**
* Returns product of the constant represented as polynomial and the rational function.
*/
public operator fun C.times(other: R): R
// endregion
// region Rational-constant relation
/**
* Returns sum of the constant represented as rational function and the rational function.
*/
public operator fun R.plus(other: C): R
/**
* Returns difference between the constant represented as rational function and the rational function.
*/
public operator fun R.minus(other: C): R
/**
* Returns product of the constant represented as rational function and the rational function.
*/
public operator fun R.times(other: C): R
// endregion
// region Polynomial-rational relation
/**
* Returns sum of the polynomial represented as rational function and the rational function.
*/
public operator fun P.plus(other: R): R
/**
* Returns difference between the polynomial represented as polynomial and the rational function.
*/
public operator fun P.minus(other: R): R
/**
* Returns product of the polynomial represented as polynomial and the rational function.
*/
public operator fun P.times(other: R): R
// endregion
// region Rational-polynomial relation
/**
* Returns sum of the polynomial represented as rational function and the rational function.
*/
public operator fun R.plus(other: P): R
/**
* Returns difference between the polynomial represented as rational function and the rational function.
*/
public operator fun R.minus(other: P): R
/**
* Returns product of the polynomial represented as rational function and the rational function.
*/
public operator fun R.times(other: P): R
// endregion
// region Rational-rational relation
/**
* Returns the same rational function.
*/
public override operator fun R.unaryPlus(): R = this
/**
* Returns negation of the rational function.
*/
public override operator fun R.unaryMinus(): R
/**
* Returns sum of the rational functions.
*/
public override operator fun R.plus(other: R): R
/**
* Returns difference of the rational functions.
*/
public override operator fun R.minus(other: R): R
/**
* Returns product of the rational functions.
*/
public override operator fun R.times(other: R): R
/**
* Check if the instant is zero rational function.
*/
public fun R.isZero(): Boolean = this == zero
/**
* Check if the instant is NOT zero rational function.
*/
public fun R.isNotZero(): Boolean = this != zero
/**
* Check if the instant is unit rational function.
*/
public fun R.isOne(): Boolean = this == one
/**
* Check if the instant is NOT unit rational function.
*/
public fun R.isNotOne(): Boolean = this != one
/**
* Check if the instant is minus unit rational function.
*/
public fun R.isMinusOne(): Boolean = this == -one
/**
* Check if the instant is NOT minus unit rational function.
*/
public fun R.isNotMinusOne(): Boolean = this != -one
/**
* Instance of zero rational function (zero of the rational functions ring).
*/
public override val zero: R
/**
* Instance of unit polynomial (unit of the rational functions ring).
*/
public override val one: R
/**
* Checks equality of the rational functions.
*/
@Suppress("EXTENSION_SHADOWED_BY_MEMBER", "CovariantEquals")
public fun R.equals(other: R): Boolean
// endregion
// Not sure is it necessary...
// region Polynomial properties
/**
* Degree of the polynomial, [see also](https://en.wikipedia.org/wiki/Degree_of_a_polynomial). If the polynomial is
* zero, degree is -1.
*/
public val P.degree: Int
/**
* Checks if the instant is constant polynomial (of degree no more than 0) over considered ring.
*/
public fun P.isConstant(): Boolean = degree <= 0
/**
* Checks if the instant is **not** constant polynomial (of degree no more than 0) over considered ring.
*/
public fun P.isNotConstant(): Boolean = !isConstant()
/**
* Checks if the instant is constant non-zero polynomial (of degree no more than 0) over considered ring.
*/
public fun P.isNonZeroConstant(): Boolean = degree == 0
/**
* Checks if the instant is **not** constant non-zero polynomial (of degree no more than 0) over considered ring.
*/
public fun P.isNotNonZeroConstant(): Boolean = !isNonZeroConstant()
public fun P.asConstantOrNull(): C?
public fun P.asConstant(): C = asConstantOrNull() ?: error("Can not represent non-constant polynomial as a constant")
// endregion
// Not sure is it necessary...
// region Polynomial properties
/**
* Checks if the instant is constant polynomial (of degree no more than 0) over considered ring.
*/
public fun R.isConstant(): Boolean
/**
* Checks if the instant is **not** constant polynomial (of degree no more than 0) over considered ring.
*/
public fun R.isNotConstant(): Boolean = !isConstant()
/**
* Checks if the instant is constant non-zero polynomial (of degree no more than 0) over considered ring.
*/
public fun R.isNonZeroConstant(): Boolean
/**
* Checks if the instant is **not** constant non-zero polynomial (of degree no more than 0) over considered ring.
*/
public fun R.isNotNonZeroConstant(): Boolean = !isNonZeroConstant()
public fun R.asConstantOrNull(): C?
public fun R.asConstant(): C = asConstantOrNull() ?: error("Can not represent non-constant polynomial as a constant")
// TODO: Перенести в реализацию
// fun R.substitute(argument: C): C
// fun R.substitute(argument: P): R
// fun R.substitute(argument: R): R
//
// fun R.asFunction(): (C) -> C = /*this::substitute*/ { this.substitute(it) }
// fun R.asFunctionOnConstants(): (C) -> C = /*this::substitute*/ { this.substitute(it) }
// fun P.asFunctionOnPolynomials(): (P) -> R = /*this::substitute*/ { this.substitute(it) }
// fun R.asFunctionOnRationalFunctions(): (R) -> R = /*this::substitute*/ { this.substitute(it) }
//
// operator fun R.invoke(argument: C): C = this.substitute(argument)
// operator fun R.invoke(argument: P): R = this.substitute(argument)
// operator fun R.invoke(argument: R): R = this.substitute(argument)
// endregion
// region Legacy
override fun add(left: R, right: R): R = left + right
override fun multiply(left: R, right: R): R = left * right
// endregion
}