Feature: Polynomials and rational functions #469
@ -117,8 +117,8 @@ public fun <C> C.asLabeledPolynomial() : LabeledPolynomial<C> = LabeledPolynomia
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*/
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public class LabeledPolynomialSpace<C, A : Ring<C>>(
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public override val ring: A,
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) : PolynomialSpaceOverRing<C, LabeledPolynomial<C>, A> {
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public operator fun Symbol.plus(other: Int): LabeledPolynomial<C> =
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) : MultivariatePolynomialSpace<C, Symbol, LabeledPolynomial<C>>, PolynomialSpaceOverRing<C, LabeledPolynomial<C>, A> {
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public override operator fun Symbol.plus(other: Int): LabeledPolynomial<C> =
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if (other == 0) LabeledPolynomial<C>(mapOf(
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mapOf(this@plus to 1U) to constantOne,
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))
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@ -126,7 +126,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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mapOf(this@plus to 1U) to constantOne,
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emptyMap<Symbol, UInt>() to constantOne * other,
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))
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public operator fun Symbol.minus(other: Int): LabeledPolynomial<C> =
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public override operator fun Symbol.minus(other: Int): LabeledPolynomial<C> =
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if (other == 0) LabeledPolynomial<C>(mapOf(
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mapOf(this@minus to 1U) to -constantOne,
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))
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@ -134,13 +134,13 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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mapOf(this@minus to 1U) to -constantOne,
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emptyMap<Symbol, UInt>() to constantOne * other,
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))
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public operator fun Symbol.times(other: Int): LabeledPolynomial<C> =
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public override operator fun Symbol.times(other: Int): LabeledPolynomial<C> =
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if (other == 0) zero
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else LabeledPolynomial<C>(mapOf(
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mapOf(this to 1U) to constantOne * other,
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))
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public operator fun Int.plus(other: Symbol): LabeledPolynomial<C> =
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public override operator fun Int.plus(other: Symbol): LabeledPolynomial<C> =
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if (this == 0) LabeledPolynomial<C>(mapOf(
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mapOf(other to 1U) to constantOne,
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))
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@ -148,7 +148,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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mapOf(other to 1U) to constantOne,
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emptyMap<Symbol, UInt>() to constantOne * this@plus,
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))
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public operator fun Int.minus(other: Symbol): LabeledPolynomial<C> =
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public override operator fun Int.minus(other: Symbol): LabeledPolynomial<C> =
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if (this == 0) LabeledPolynomial<C>(mapOf(
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mapOf(other to 1U) to -constantOne,
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))
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@ -156,7 +156,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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mapOf(other to 1U) to -constantOne,
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emptyMap<Symbol, UInt>() to constantOne * this@minus,
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))
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public operator fun Int.times(other: Symbol): LabeledPolynomial<C> =
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public override operator fun Int.times(other: Symbol): LabeledPolynomial<C> =
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if (this == 0) zero
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else LabeledPolynomial<C>(mapOf(
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mapOf(other to 1U) to constantOne * this@times,
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@ -275,7 +275,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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*/
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public override fun number(value: Int): LabeledPolynomial<C> = number(constantNumber(value))
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public operator fun C.plus(other: Symbol): LabeledPolynomial<C> =
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public override operator fun C.plus(other: Symbol): LabeledPolynomial<C> =
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if (isZero()) LabeledPolynomial<C>(mapOf(
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mapOf(other to 1U) to constantOne,
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))
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@ -283,7 +283,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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mapOf(other to 1U) to constantOne,
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emptyMap<Symbol, UInt>() to this@plus,
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))
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public operator fun C.minus(other: Symbol): LabeledPolynomial<C> =
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public override operator fun C.minus(other: Symbol): LabeledPolynomial<C> =
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if (isZero()) LabeledPolynomial<C>(mapOf(
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mapOf(other to 1U) to -constantOne,
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))
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@ -291,13 +291,13 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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mapOf(other to 1U) to -constantOne,
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emptyMap<Symbol, UInt>() to this@minus,
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))
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public operator fun C.times(other: Symbol): LabeledPolynomial<C> =
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public override operator fun C.times(other: Symbol): LabeledPolynomial<C> =
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if (isZero()) zero
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else LabeledPolynomial<C>(mapOf(
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mapOf(other to 1U) to this@times,
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))
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public operator fun Symbol.plus(other: C): LabeledPolynomial<C> =
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public override operator fun Symbol.plus(other: C): LabeledPolynomial<C> =
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if (other.isZero()) LabeledPolynomial<C>(mapOf(
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mapOf(this@plus to 1U) to constantOne,
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))
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@ -305,7 +305,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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mapOf(this@plus to 1U) to constantOne,
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emptyMap<Symbol, UInt>() to other,
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))
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public operator fun Symbol.minus(other: C): LabeledPolynomial<C> =
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public override operator fun Symbol.minus(other: C): LabeledPolynomial<C> =
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if (other.isZero()) LabeledPolynomial<C>(mapOf(
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mapOf(this@minus to 1U) to -constantOne,
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))
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@ -313,7 +313,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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mapOf(this@minus to 1U) to -constantOne,
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emptyMap<Symbol, UInt>() to other,
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))
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public operator fun Symbol.times(other: C): LabeledPolynomial<C> =
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public override operator fun Symbol.times(other: C): LabeledPolynomial<C> =
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if (other.isZero()) zero
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else LabeledPolynomial<C>(mapOf(
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mapOf(this@times to 1U) to other,
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@ -430,7 +430,15 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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if (value == 0) zero
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else LabeledPolynomial(mapOf(emptyMap<Symbol, UInt>() to value))
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public operator fun Symbol.plus(other: Symbol): LabeledPolynomial<C> =
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public override operator fun Symbol.unaryPlus(): LabeledPolynomial<C> =
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LabeledPolynomial<C>(mapOf(
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mapOf(this to 1U) to constantOne,
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))
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public override operator fun Symbol.unaryMinus(): LabeledPolynomial<C> =
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LabeledPolynomial<C>(mapOf(
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mapOf(this to 1U) to -constantOne,
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))
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public override operator fun Symbol.plus(other: Symbol): LabeledPolynomial<C> =
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if (this == other) LabeledPolynomial<C>(mapOf(
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mapOf(this to 1U) to constantOne * 2
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))
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@ -438,13 +446,13 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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mapOf(this to 1U) to constantOne,
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mapOf(other to 1U) to constantOne,
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))
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public operator fun Symbol.minus(other: Symbol): LabeledPolynomial<C> =
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public override operator fun Symbol.minus(other: Symbol): LabeledPolynomial<C> =
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if (this == other) zero
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else LabeledPolynomial<C>(mapOf(
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mapOf(this to 1U) to constantOne,
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mapOf(other to 1U) to -constantOne,
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))
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public operator fun Symbol.times(other: Symbol): LabeledPolynomial<C> =
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public override operator fun Symbol.times(other: Symbol): LabeledPolynomial<C> =
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if (this == other) LabeledPolynomial<C>(mapOf(
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mapOf(this to 2U) to constantOne
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))
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@ -452,7 +460,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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mapOf(this to 1U, other to 1U) to constantOne,
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))
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public operator fun Symbol.plus(other: LabeledPolynomial<C>): LabeledPolynomial<C> =
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public override operator fun Symbol.plus(other: LabeledPolynomial<C>): LabeledPolynomial<C> =
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with(other.coefficients) {
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if (isEmpty()) LabeledPolynomial<C>(mapOf(mapOf(this@plus to 1u) to constantOne))
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else LabeledPolynomial<C>(
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@ -467,7 +475,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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}
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)
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}
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public operator fun Symbol.minus(other: LabeledPolynomial<C>): LabeledPolynomial<C> =
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public override operator fun Symbol.minus(other: LabeledPolynomial<C>): LabeledPolynomial<C> =
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with(other.coefficients) {
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if (isEmpty()) LabeledPolynomial<C>(mapOf(mapOf(this@minus to 1u) to constantOne))
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else LabeledPolynomial<C>(
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@ -484,13 +492,13 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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}
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)
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}
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public operator fun Symbol.times(other: LabeledPolynomial<C>): LabeledPolynomial<C> =
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public override operator fun Symbol.times(other: LabeledPolynomial<C>): LabeledPolynomial<C> =
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LabeledPolynomial<C>(
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other.coefficients
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.mapKeys { (degs, _) -> degs.toMutableMap().also{ it[this] = if (this in it) it[this]!! + 1U else 1U } }
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)
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public operator fun LabeledPolynomial<C>.plus(other: Symbol): LabeledPolynomial<C> =
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public override operator fun LabeledPolynomial<C>.plus(other: Symbol): LabeledPolynomial<C> =
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with(coefficients) {
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if (isEmpty()) LabeledPolynomial<C>(mapOf(mapOf(other to 1u) to constantOne))
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else LabeledPolynomial<C>(
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@ -505,7 +513,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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}
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)
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}
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public operator fun LabeledPolynomial<C>.minus(other: Symbol): LabeledPolynomial<C> =
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public override operator fun LabeledPolynomial<C>.minus(other: Symbol): LabeledPolynomial<C> =
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with(coefficients) {
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if (isEmpty()) LabeledPolynomial<C>(mapOf(mapOf(other to 1u) to constantOne))
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else LabeledPolynomial<C>(
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@ -520,7 +528,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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}
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)
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}
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public operator fun LabeledPolynomial<C>.times(other: Symbol): LabeledPolynomial<C> =
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public override operator fun LabeledPolynomial<C>.times(other: Symbol): LabeledPolynomial<C> =
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LabeledPolynomial<C>(
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coefficients
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.mapKeys { (degs, _) -> degs.toMutableMap().also{ it[other] = if (other in it) it[other]!! + 1U else 1U } }
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@ -604,7 +612,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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* As consequence all values in the map are positive integers. Also, if the polynomial is constant, the map is empty.
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* And keys of the map is the same as in [variables].
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*/
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public val LabeledPolynomial<C>.degrees: Map<Symbol, UInt>
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public override val LabeledPolynomial<C>.degrees: Map<Symbol, UInt>
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get() =
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buildMap {
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coefficients.entries.forEach { (degs, c) ->
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@ -613,10 +621,20 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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}
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}
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}
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/**
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* Counts degree of the polynomial by the specified [variable].
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*/
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public override fun LabeledPolynomial<C>.degreeBy(variable: Symbol): UInt =
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coefficients.entries.maxOfOrNull { (degs, c) -> if (c.isZero()) 0u else degs.getOrElse(variable) { 0u } } ?: 0u
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/**
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* Counts degree of the polynomial by the specified [variables].
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*/
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public override fun LabeledPolynomial<C>.degreeBy(variables: Collection<Symbol>): UInt =
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coefficients.entries.maxOfOrNull { (degs, c) -> if (c.isZero()) 0u else degs.filterKeys { it in variables }.values.sum() } ?: 0u
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/**
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* Set of all variables that appear in the polynomial in positive exponents.
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*/
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public val LabeledPolynomial<C>.variables: Set<Symbol>
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public override val LabeledPolynomial<C>.variables: Set<Symbol>
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get() =
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buildSet {
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coefficients.entries.forEach { (degs, c) -> if (c.isNotZero()) addAll(degs.keys) }
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@ -624,7 +642,7 @@ public class LabeledPolynomialSpace<C, A : Ring<C>>(
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/**
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* Count of all variables that appear in the polynomial in positive exponents.
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*/
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public val LabeledPolynomial<C>.countOfVariables: Int get() = variables.size
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public override val LabeledPolynomial<C>.countOfVariables: Int get() = variables.size
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/**
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* Checks if the instant is constant polynomial (of degree no more than 0) over considered ring.
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@ -63,14 +63,16 @@ public fun <C, A: Ring<C>> A.LabeledRationalFunction(numeratorCoefficients: Map<
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public class LabeledRationalFunctionSpace<C, A: Ring<C>>(
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public val ring: A,
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) :
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RationalFunctionalSpaceOverPolynomialSpace<
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MultivariateRationalFunctionalSpaceOverMultivariatePolynomialSpace<
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C,
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Symbol,
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LabeledPolynomial<C>,
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LabeledRationalFunction<C>,
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LabeledPolynomialSpace<C, A>,
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>,
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PolynomialSpaceOfFractions<
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MultivariatePolynomialSpaceOfFractions<
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C,
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Symbol,
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LabeledPolynomial<C>,
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LabeledRationalFunction<C>,
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>() {
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@ -113,33 +115,6 @@ public class LabeledRationalFunctionSpace<C, A: Ring<C>>(
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return numerator * other.denominator equalsTo other.numerator * denominator
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}
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/**
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* Map that associates variables (that appear in the polynomial in positive exponents) with their most exponents
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* in which they are appeared in the polynomial.
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*
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* As consequence all values in the map are positive integers. Also, if the polynomial is constant, the map is empty.
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* And keys of the map is the same as in [variables].
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*/
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public val LabeledPolynomial<C>.degrees: Map<Symbol, UInt> get() = polynomialRing { degrees }
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/**
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* Set of all variables that appear in the polynomial in positive exponents.
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*/
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public val LabeledPolynomial<C>.variables: Set<Symbol> get() = polynomialRing { variables }
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/**
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* Count of all variables that appear in the polynomial in positive exponents.
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*/
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public val LabeledPolynomial<C>.countOfVariables: Int get() = polynomialRing { countOfVariables }
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/**
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* Count of all variables that appear in the polynomial in positive exponents.
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*/
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public val LabeledRationalFunction<C>.variables: Set<Symbol>
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get() = numerator.variables union denominator.variables
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/**
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* Count of all variables that appear in the polynomial in positive exponents.
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*/
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public val LabeledRationalFunction<C>.countOfVariables: Int get() = variables.size
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// TODO: Разобрать
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// operator fun invoke(arg: Map<Symbol, C>): LabeledRationalFunction<C> =
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@ -5,7 +5,8 @@
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package space.kscience.kmath.functions
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import space.kscience.kmath.operations.*
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import space.kscience.kmath.operations.Ring
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import space.kscience.kmath.operations.invoke
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import kotlin.js.JsName
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import kotlin.jvm.JvmName
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@ -414,3 +415,60 @@ public interface PolynomialSpaceOverRing<C, P: Polynomial<C>, A: Ring<C>> : Poly
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*/
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public override val constantOne: C get() = ring.one
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}
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public interface MultivariatePolynomialSpace<C, V, P: Polynomial<C>>: PolynomialSpace<C, P> {
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public operator fun V.plus(other: Int): P
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public operator fun V.minus(other: Int): P
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public operator fun V.times(other: Int): P
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public operator fun Int.plus(other: V): P
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public operator fun Int.minus(other: V): P
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public operator fun Int.times(other: V): P
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public operator fun C.plus(other: V): P
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public operator fun C.minus(other: V): P
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public operator fun C.times(other: V): P
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public operator fun V.plus(other: C): P
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public operator fun V.minus(other: C): P
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public operator fun V.times(other: C): P
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public operator fun V.unaryPlus(): P
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public operator fun V.unaryMinus(): P
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public operator fun V.plus(other: V): P
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public operator fun V.minus(other: V): P
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public operator fun V.times(other: V): P
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public operator fun V.plus(other: P): P
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public operator fun V.minus(other: P): P
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public operator fun V.times(other: P): P
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public operator fun P.plus(other: V): P
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public operator fun P.minus(other: V): P
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public operator fun P.times(other: V): P
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/**
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* Map that associates variables (that appear in the polynomial in positive exponents) with their most exponents
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* in which they are appeared in the polynomial.
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*
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* As consequence all values in the map are positive integers. Also, if the polynomial is constant, the map is empty.
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* And keys of the map is the same as in [variables].
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*/
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public val P.degrees: Map<V, UInt>
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/**
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* Counts degree of the polynomial by the specified [variable].
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*/
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public fun P.degreeBy(variable: V): UInt = degrees.getOrElse(variable) { 0u }
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/**
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* Counts degree of the polynomial by the specified [variables].
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*/
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public fun P.degreeBy(variables: Collection<V>): UInt
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/**
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* Set of all variables that appear in the polynomial in positive exponents.
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*/
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public val P.variables: Set<V> get() = degrees.keys
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/**
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* Count of all variables that appear in the polynomial in positive exponents.
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*/
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public val P.countOfVariables: Int get() = variables.size
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}
|
@ -1307,3 +1307,200 @@ public abstract class PolynomialSpaceOfFractions<
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*/
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public override val one: R get() = constructRationalFunction(polynomialOne)
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}
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public interface MultivariateRationalFunctionalSpace<
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C,
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V,
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P: Polynomial<C>,
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R: RationalFunction<C, P>
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>: RationalFunctionalSpace<C, P, R> {
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public operator fun V.plus(other: Int): P
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public operator fun V.minus(other: Int): P
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public operator fun V.times(other: Int): P
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public operator fun Int.plus(other: V): P
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public operator fun Int.minus(other: V): P
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public operator fun Int.times(other: V): P
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public operator fun C.plus(other: V): P
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public operator fun C.minus(other: V): P
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public operator fun C.times(other: V): P
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public operator fun V.plus(other: C): P
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public operator fun V.minus(other: C): P
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public operator fun V.times(other: C): P
|
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public operator fun V.unaryPlus(): P
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public operator fun V.unaryMinus(): P
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public operator fun V.plus(other: V): P
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public operator fun V.minus(other: V): P
|
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public operator fun V.times(other: V): P
|
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|
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public operator fun V.plus(other: P): P
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public operator fun V.minus(other: P): P
|
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public operator fun V.times(other: P): P
|
||||
|
||||
public operator fun P.plus(other: V): P
|
||||
public operator fun P.minus(other: V): P
|
||||
public operator fun P.times(other: V): P
|
||||
|
||||
public operator fun V.plus(other: R): R
|
||||
public operator fun V.minus(other: R): R
|
||||
public operator fun V.times(other: R): R
|
||||
|
||||
public operator fun R.plus(other: V): R
|
||||
public operator fun R.minus(other: V): R
|
||||
public operator fun R.times(other: V): R
|
||||
|
||||
/**
|
||||
* Map that associates variables (that appear in the polynomial in positive exponents) with their most exponents
|
||||
* in which they are appeared in the polynomial.
|
||||
*
|
||||
* As consequence all values in the map are positive integers. Also, if the polynomial is constant, the map is empty.
|
||||
* And keys of the map is the same as in [variables].
|
||||
*/
|
||||
public val P.degrees: Map<V, UInt>
|
||||
/**
|
||||
* Counts degree of the polynomial by the specified [variable].
|
||||
*/
|
||||
public fun P.degreeBy(variable: V): UInt = degrees.getOrElse(variable) { 0u }
|
||||
/**
|
||||
* Counts degree of the polynomial by the specified [variables].
|
||||
*/
|
||||
public fun P.degreeBy(variables: Collection<V>): UInt
|
||||
/**
|
||||
* Set of all variables that appear in the polynomial in positive exponents.
|
||||
*/
|
||||
public val P.variables: Set<V> get() = degrees.keys
|
||||
/**
|
||||
* Count of all variables that appear in the polynomial in positive exponents.
|
||||
*/
|
||||
public val P.countOfVariables: Int get() = variables.size
|
||||
|
||||
/**
|
||||
* Set of all variables that appear in the polynomial in positive exponents.
|
||||
*/
|
||||
public val R.variables: Set<V> get() = numerator.variables union denominator.variables
|
||||
/**
|
||||
* Count of all variables that appear in the polynomial in positive exponents.
|
||||
*/
|
||||
public val R.countOfVariables: Int get() = variables.size
|
||||
}
|
||||
|
||||
public interface MultivariateRationalFunctionalSpaceOverRing<
|
||||
C,
|
||||
V,
|
||||
P: Polynomial<C>,
|
||||
R: RationalFunction<C, P>,
|
||||
A: Ring<C>
|
||||
> : RationalFunctionalSpaceOverRing<C, P, R, A>, MultivariateRationalFunctionalSpace<C, V, P, R>
|
||||
|
||||
public interface MultivariateRationalFunctionalSpaceOverPolynomialSpace<
|
||||
C,
|
||||
V,
|
||||
P: Polynomial<C>,
|
||||
R: RationalFunction<C, P>,
|
||||
AP: PolynomialSpace<C, P>,
|
||||
> : RationalFunctionalSpaceOverPolynomialSpace<C, P, R, AP>, MultivariateRationalFunctionalSpace<C, V, P, R>
|
||||
|
||||
public interface MultivariateRationalFunctionalSpaceOverMultivariatePolynomialSpace<
|
||||
C,
|
||||
V,
|
||||
P: Polynomial<C>,
|
||||
R: RationalFunction<C, P>,
|
||||
AP: MultivariatePolynomialSpace<C, V, P>,
|
||||
> : MultivariateRationalFunctionalSpaceOverPolynomialSpace<C, V, P, R, AP> {
|
||||
public override operator fun V.plus(other: Int): P = polynomialRing { this@plus + other }
|
||||
public override operator fun V.minus(other: Int): P = polynomialRing { this@minus - other }
|
||||
public override operator fun V.times(other: Int): P = polynomialRing { this@times * other }
|
||||
|
||||
public override operator fun Int.plus(other: V): P = polynomialRing { this@plus + other }
|
||||
public override operator fun Int.minus(other: V): P = polynomialRing { this@minus - other }
|
||||
public override operator fun Int.times(other: V): P = polynomialRing { this@times * other }
|
||||
|
||||
public override operator fun C.plus(other: V): P = polynomialRing { this@plus + other }
|
||||
public override operator fun C.minus(other: V): P = polynomialRing { this@minus - other }
|
||||
public override operator fun C.times(other: V): P = polynomialRing { this@times * other }
|
||||
|
||||
public override operator fun V.plus(other: C): P = polynomialRing { this@plus + other }
|
||||
public override operator fun V.minus(other: C): P = polynomialRing { this@minus - other }
|
||||
public override operator fun V.times(other: C): P = polynomialRing { this@times * other }
|
||||
|
||||
public override operator fun V.unaryPlus(): P = polynomialRing { +this@unaryPlus }
|
||||
public override operator fun V.unaryMinus(): P = polynomialRing { -this@unaryMinus }
|
||||
public override operator fun V.plus(other: V): P = polynomialRing { this@plus + other }
|
||||
public override operator fun V.minus(other: V): P = polynomialRing { this@minus - other }
|
||||
public override operator fun V.times(other: V): P = polynomialRing { this@times * other }
|
||||
|
||||
public override operator fun V.plus(other: P): P = polynomialRing { this@plus + other }
|
||||
public override operator fun V.minus(other: P): P = polynomialRing { this@minus - other }
|
||||
public override operator fun V.times(other: P): P = polynomialRing { this@times * other }
|
||||
|
||||
public override operator fun P.plus(other: V): P = polynomialRing { this@plus + other }
|
||||
public override operator fun P.minus(other: V): P = polynomialRing { this@minus - other }
|
||||
public override operator fun P.times(other: V): P = polynomialRing { this@times * other }
|
||||
|
||||
/**
|
||||
* Map that associates variables (that appear in the polynomial in positive exponents) with their most exponents
|
||||
* in which they are appeared in the polynomial.
|
||||
*
|
||||
* As consequence all values in the map are positive integers. Also, if the polynomial is constant, the map is empty.
|
||||
* And keys of the map is the same as in [variables].
|
||||
*/
|
||||
public override val P.degrees: Map<V, UInt> get() = polynomialRing { degrees }
|
||||
/**
|
||||
* Counts degree of the polynomial by the specified [variable].
|
||||
*/
|
||||
public override fun P.degreeBy(variable: V): UInt = polynomialRing { degreeBy(variable) }
|
||||
/**
|
||||
* Counts degree of the polynomial by the specified [variables].
|
||||
*/
|
||||
public override fun P.degreeBy(variables: Collection<V>): UInt = polynomialRing { degreeBy(variables) }
|
||||
/**
|
||||
* Set of all variables that appear in the polynomial in positive exponents.
|
||||
*/
|
||||
public override val P.variables: Set<V> get() = polynomialRing { variables }
|
||||
/**
|
||||
* Count of all variables that appear in the polynomial in positive exponents.
|
||||
*/
|
||||
public override val P.countOfVariables: Int get() = polynomialRing { countOfVariables }
|
||||
}
|
||||
|
||||
public abstract class MultivariatePolynomialSpaceOfFractions<
|
||||
C,
|
||||
V,
|
||||
P: Polynomial<C>,
|
||||
R: RationalFunction<C, P>,
|
||||
> : MultivariateRationalFunctionalSpace<C, V, P, R>, PolynomialSpaceOfFractions<C, P, R>() {
|
||||
public override operator fun V.plus(other: R): R =
|
||||
constructRationalFunction(
|
||||
this * other.denominator + other.numerator,
|
||||
other.denominator
|
||||
)
|
||||
public override operator fun V.minus(other: R): R =
|
||||
constructRationalFunction(
|
||||
this * other.denominator - other.numerator,
|
||||
other.denominator
|
||||
)
|
||||
public override operator fun V.times(other: R): R =
|
||||
constructRationalFunction(
|
||||
this * other.numerator,
|
||||
other.denominator
|
||||
)
|
||||
|
||||
public override operator fun R.plus(other: V): R =
|
||||
constructRationalFunction(
|
||||
numerator + denominator * other,
|
||||
denominator
|
||||
)
|
||||
public override operator fun R.minus(other: V): R =
|
||||
constructRationalFunction(
|
||||
numerator - denominator * other,
|
||||
denominator
|
||||
)
|
||||
public override operator fun R.times(other: V): R =
|
||||
constructRationalFunction(
|
||||
numerator * other,
|
||||
denominator
|
||||
)
|
||||
}
|
Loading…
Reference in New Issue
Block a user