Added constructors for RFs' spaces

This commit is contained in:
Gleb Minaev 2022-03-22 14:25:09 +03:00
parent 2f9e504357
commit 39ce855075
3 changed files with 122 additions and 122 deletions

View File

@ -19,48 +19,46 @@ public class LabeledRationalFunction<C>(
// Waiting for context receivers :( TODO: Replace with context receivers when they will be available
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//internal fun <C, A: Ring<C>> RationalFunction(numerator: Polynomial<C>, denominator: Polynomial<C>): RationalFunction<C> =
// if (denominator.isZero()) throw ArithmeticException("/ by zero")
// else RationalFunction<C>(numerator, denominator)
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//public fun <C, A: Ring<C>> RationalFunction(numeratorCoefficients: List<C>, denominatorCoefficients: List<C>, reverse: Boolean = false): RationalFunction<C> =
// RationalFunction<C>(
// Polynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } ),
// Polynomial( with(denominatorCoefficients) { if (reverse) reversed() else this } ).also { if (it.isZero()) }
// )
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//public fun <C, A: Ring<C>> RationalFunction(numerator: Polynomial<C>): RationalFunction<C> =
// RationalFunction(numerator, onePolynomial)
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//public fun <C, A: Ring<C>> RationalFunction(numeratorCoefficients: List<C>, reverse: Boolean = false): RationalFunction<C> =
// RationalFunction(
// Polynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } )
// )
// TODO: Rewrite former constructors as fabrics
//constructor(numeratorCoefficients: Map<Map<Symbol, Int>, C>, denominatorCoefficients: Map<Map<Symbol, Int>, C>) : this(
//LabeledPolynomial(numeratorCoefficients),
//LabeledPolynomial(denominatorCoefficients)
//)
//
//constructor(numeratorCoefficients: Collection<Pair<Map<Symbol, Int>, C>>, denominatorCoefficients: Collection<Pair<Map<Symbol, Int>, C>>) : this(
//LabeledPolynomial(numeratorCoefficients),
//LabeledPolynomial(denominatorCoefficients)
//)
//
//constructor(numerator: LabeledPolynomial<C>) : this(numerator, numerator.getOne())
//constructor(numeratorCoefficients: Map<Map<Symbol, Int>, C>) : this(
//LabeledPolynomial(numeratorCoefficients)
//)
//
//constructor(numeratorCoefficients: Collection<Pair<Map<Symbol, Int>, C>>) : this(
//LabeledPolynomial(numeratorCoefficients)
//)
@Suppress("FunctionName")
internal fun <C, A: Ring<C>> LabeledRationalFunctionSpace<C, A>.LabeledRationalFunction(numerator: LabeledPolynomial<C>, denominator: LabeledPolynomial<C>): LabeledRationalFunction<C> =
if (denominator.isZero()) throw ArithmeticException("/ by zero")
else LabeledRationalFunction<C>(numerator, denominator)
@Suppress("FunctionName")
internal fun <C, A: Ring<C>> A.LabeledRationalFunction(numerator: LabeledPolynomial<C>, denominator: LabeledPolynomial<C>): LabeledRationalFunction<C> =
if (denominator.coefficients.values.all { it == zero }) throw ArithmeticException("/ by zero")
else LabeledRationalFunction<C>(numerator, denominator)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> LabeledRationalFunctionSpace<C, A>.LabeledRationalFunction(numeratorCoefficients: Map<Map<Symbol, UInt>, C>, denominatorCoefficients: Map<Map<Symbol, UInt>, C>): LabeledRationalFunction<C> =
if (denominatorCoefficients.values.all { it == zero }) throw ArithmeticException("/ by zero")
else LabeledRationalFunction<C>(
LabeledPolynomial(numeratorCoefficients),
LabeledPolynomial(denominatorCoefficients)
)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> A.LabeledRationalFunction(numeratorCoefficients: Map<Map<Symbol, UInt>, C>, denominatorCoefficients: Map<Map<Symbol, UInt>, C>): LabeledRationalFunction<C> =
if (denominatorCoefficients.values.all { it == zero }) throw ArithmeticException("/ by zero")
else LabeledRationalFunction<C>(
LabeledPolynomial(numeratorCoefficients),
LabeledPolynomial(denominatorCoefficients)
)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> LabeledRationalFunctionSpace<C, A>.LabeledRationalFunction(numerator: LabeledPolynomial<C>): LabeledRationalFunction<C> =
LabeledRationalFunction<C>(numerator, polynomialOne)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> A.LabeledRationalFunction(numerator: LabeledPolynomial<C>): LabeledRationalFunction<C> =
LabeledRationalFunction<C>(numerator, LabeledPolynomial(mapOf(emptyMap<Symbol, UInt>() to one)))
@Suppress("FunctionName")
public fun <C, A: Ring<C>> LabeledRationalFunctionSpace<C, A>.LabeledRationalFunction(numeratorCoefficients: Map<Map<Symbol, UInt>, C>): LabeledRationalFunction<C> =
LabeledRationalFunction<C>(
LabeledPolynomial(numeratorCoefficients),
polynomialOne
)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> A.LabeledRationalFunction(numeratorCoefficients: Map<Map<Symbol, UInt>, C>): LabeledRationalFunction<C> =
LabeledRationalFunction<C>(
LabeledPolynomial(numeratorCoefficients),
LabeledPolynomial(mapOf(emptyMap<Symbol, UInt>() to one))
)
public class LabeledRationalFunctionSpace<C, A: Ring<C>>(
public val ring: A,

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@ -17,28 +17,46 @@ public data class ListRationalFunction<C> internal constructor (
// Waiting for context receivers :( TODO: Replace with context receivers when they will be available
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//internal fun <C, A: Ring<C>> RationalFunction(numerator: Polynomial<C>, denominator: Polynomial<C>): RationalFunction<C> =
// if (denominator.isZero()) throw ArithmeticException("/ by zero")
// else RationalFunction<C>(numerator, denominator)
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//public fun <C, A: Ring<C>> RationalFunction(numeratorCoefficients: List<C>, denominatorCoefficients: List<C>, reverse: Boolean = false): RationalFunction<C> =
// RationalFunction<C>(
// Polynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } ),
// Polynomial( with(denominatorCoefficients) { if (reverse) reversed() else this } ).also { if (it.isZero()) }
// )
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//public fun <C, A: Ring<C>> RationalFunction(numerator: Polynomial<C>): RationalFunction<C> =
// RationalFunction(numerator, onePolynomial)
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//public fun <C, A: Ring<C>> RationalFunction(numeratorCoefficients: List<C>, reverse: Boolean = false): RationalFunction<C> =
// RationalFunction(
// Polynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } )
// )
@Suppress("FunctionName")
internal fun <C, A: Ring<C>> ListRationalFunctionSpace<C, A>.ListRationalFunction(numerator: ListPolynomial<C>, denominator: ListPolynomial<C>): ListRationalFunction<C> =
if (denominator.isZero()) throw ArithmeticException("/ by zero")
else ListRationalFunction<C>(numerator, denominator)
@Suppress("FunctionName")
internal fun <C, A: Ring<C>> A.ListRationalFunction(numerator: ListPolynomial<C>, denominator: ListPolynomial<C>): ListRationalFunction<C> =
if (denominator.coefficients.all { it == zero }) throw ArithmeticException("/ by zero")
else ListRationalFunction<C>(numerator, denominator)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> ListRationalFunctionSpace<C, A>.ListRationalFunction(numeratorCoefficients: List<C>, denominatorCoefficients: List<C>, reverse: Boolean = false): ListRationalFunction<C> =
if (denominatorCoefficients.all { it == zero }) throw ArithmeticException("/ by zero")
else ListRationalFunction<C>(
ListPolynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } ),
ListPolynomial( with(denominatorCoefficients) { if (reverse) reversed() else this } )
)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> A.ListRationalFunction(numeratorCoefficients: List<C>, denominatorCoefficients: List<C>, reverse: Boolean = false): ListRationalFunction<C> =
if (denominatorCoefficients.all { it == zero }) throw ArithmeticException("/ by zero")
else ListRationalFunction<C>(
ListPolynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } ),
ListPolynomial( with(denominatorCoefficients) { if (reverse) reversed() else this } )
)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> ListRationalFunctionSpace<C, A>.ListRationalFunction(numerator: ListPolynomial<C>): ListRationalFunction<C> =
ListRationalFunction<C>(numerator, polynomialOne)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> A.ListRationalFunction(numerator: ListPolynomial<C>): ListRationalFunction<C> =
ListRationalFunction<C>(numerator, ListPolynomial(listOf(one)))
@Suppress("FunctionName")
public fun <C, A: Ring<C>> ListRationalFunctionSpace<C, A>.ListRationalFunction(numeratorCoefficients: List<C>, reverse: Boolean = false): ListRationalFunction<C> =
ListRationalFunction<C>(
ListPolynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } ),
polynomialOne
)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> A.ListRationalFunction(numeratorCoefficients: List<C>, reverse: Boolean = false): ListRationalFunction<C> =
ListRationalFunction<C>(
ListPolynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } ),
ListPolynomial(listOf(one))
)
public class ListRationalFunctionSpace<C, A : Ring<C>> (
public val ring: A,

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@ -5,7 +5,8 @@
package space.kscience.kmath.functions
import space.kscience.kmath.operations.*
import space.kscience.kmath.operations.Ring
import space.kscience.kmath.operations.invoke
import kotlin.math.max
@ -18,45 +19,46 @@ public class NumberedRationalFunction<C> internal constructor(
// Waiting for context receivers :( TODO: Replace with context receivers when they will be available
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//internal fun <C, A: Ring<C>> RationalFunction(numerator: Polynomial<C>, denominator: Polynomial<C>): RationalFunction<C> =
// if (denominator.isZero()) throw ArithmeticException("/ by zero")
// else RationalFunction<C>(numerator, denominator)
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//public fun <C, A: Ring<C>> RationalFunction(numeratorCoefficients: List<C>, denominatorCoefficients: List<C>, reverse: Boolean = false): RationalFunction<C> =
// RationalFunction<C>(
// Polynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } ),
// Polynomial( with(denominatorCoefficients) { if (reverse) reversed() else this } ).also { if (it.isZero()) }
// )
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//public fun <C, A: Ring<C>> RationalFunction(numerator: Polynomial<C>): RationalFunction<C> =
// RationalFunction(numerator, onePolynomial)
//context(RationalFunctionSpace<C, A>)
//@Suppress("FunctionName")
//public fun <C, A: Ring<C>> RationalFunction(numeratorCoefficients: List<C>, reverse: Boolean = false): RationalFunction<C> =
// RationalFunction(
// Polynomial( with(numeratorCoefficients) { if (reverse) reversed() else this } )
// )
// TODO: Rewrite former constructors as fabrics
//constructor(numeratorCoefficients: Map<List<Int>, C>, denominatorCoefficients: Map<List<Int>, C>) : this(
//Polynomial(numeratorCoefficients),
//Polynomial(denominatorCoefficients)
//)
//constructor(numeratorCoefficients: Collection<Pair<List<Int>, C>>, denominatorCoefficients: Collection<Pair<List<Int>, C>>) : this(
//Polynomial(numeratorCoefficients),
//Polynomial(denominatorCoefficients)
//)
//constructor(numerator: Polynomial<C>) : this(numerator, numerator.getOne())
//constructor(numeratorCoefficients: Map<List<Int>, C>) : this(
//Polynomial(numeratorCoefficients)
//)
//constructor(numeratorCoefficients: Collection<Pair<List<Int>, C>>) : this(
//Polynomial(numeratorCoefficients)
//)
@Suppress("FunctionName")
internal fun <C, A: Ring<C>> NumberedRationalFunctionSpace<C, A>.NumberedRationalFunction(numerator: NumberedPolynomial<C>, denominator: NumberedPolynomial<C>): NumberedRationalFunction<C> =
if (denominator.isZero()) throw ArithmeticException("/ by zero")
else NumberedRationalFunction<C>(numerator, denominator)
@Suppress("FunctionName")
internal fun <C, A: Ring<C>> A.NumberedRationalFunction(numerator: NumberedPolynomial<C>, denominator: NumberedPolynomial<C>): NumberedRationalFunction<C> =
if (denominator.coefficients.values.all { it == zero }) throw ArithmeticException("/ by zero")
else NumberedRationalFunction<C>(numerator, denominator)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> NumberedRationalFunctionSpace<C, A>.NumberedRationalFunction(numeratorCoefficients: Map<List<UInt>, C>, denominatorCoefficients: Map<List<UInt>, C>): NumberedRationalFunction<C> =
if (denominatorCoefficients.values.all { it == zero }) throw ArithmeticException("/ by zero")
else NumberedRationalFunction<C>(
NumberedPolynomial(numeratorCoefficients),
NumberedPolynomial(denominatorCoefficients)
)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> A.NumberedRationalFunction(numeratorCoefficients: Map<List<UInt>, C>, denominatorCoefficients: Map<List<UInt>, C>): NumberedRationalFunction<C> =
if (denominatorCoefficients.values.all { it == zero }) throw ArithmeticException("/ by zero")
else NumberedRationalFunction<C>(
NumberedPolynomial(numeratorCoefficients),
NumberedPolynomial(denominatorCoefficients)
)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> NumberedRationalFunctionSpace<C, A>.NumberedRationalFunction(numerator: NumberedPolynomial<C>): NumberedRationalFunction<C> =
NumberedRationalFunction<C>(numerator, polynomialOne)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> A.NumberedRationalFunction(numerator: NumberedPolynomial<C>): NumberedRationalFunction<C> =
NumberedRationalFunction<C>(numerator, NumberedPolynomial(mapOf(emptyList<UInt>() to one)))
@Suppress("FunctionName")
public fun <C, A: Ring<C>> NumberedRationalFunctionSpace<C, A>.NumberedRationalFunction(numeratorCoefficients: Map<List<UInt>, C>): NumberedRationalFunction<C> =
NumberedRationalFunction<C>(
NumberedPolynomial(numeratorCoefficients),
polynomialOne
)
@Suppress("FunctionName")
public fun <C, A: Ring<C>> A.NumberedRationalFunction(numeratorCoefficients: Map<List<UInt>, C>): NumberedRationalFunction<C> =
NumberedRationalFunction<C>(
NumberedPolynomial(numeratorCoefficients),
NumberedPolynomial(mapOf(emptyList<UInt>() to one))
)
public class NumberedRationalFunctionSpace<C, A: Ring<C>> (
public val ring: A,
@ -156,24 +158,6 @@ public class NumberedRationalFunctionSpace<C, A: Ring<C>> (
// TODO: Разобрать
public operator fun NumberedRationalFunction<C>.div(other: NumberedRationalFunction<C>): NumberedRationalFunction<C> =
NumberedRationalFunction(
numerator * other.denominator,
denominator * other.numerator
)
public operator fun NumberedRationalFunction<C>.div(other: NumberedPolynomial<C>): NumberedRationalFunction<C> =
NumberedRationalFunction(
numerator,
denominator * other
)
public operator fun NumberedRationalFunction<C>.div(other: C): NumberedRationalFunction<C> =
NumberedRationalFunction(
numerator,
denominator * other
)
// operator fun invoke(arg: Map<Int, C>): NumberedRationalFunction<C> =
// NumberedRationalFunction(
// numerator(arg),