Fixed forgotten TODOs

This commit is contained in:
Gleb Minaev 2022-03-14 14:18:15 +03:00
parent de53d032af
commit 07f4b83722

View File

@ -105,34 +105,58 @@ public class RationalFunctionSpace<C, A : Ring<C>> (
*
* The operation is equivalent to adding [this] copies of unit polynomial to [other].
*/
public override operator fun Int.plus(other: RationalFunction<C>): RationalFunction<C> = TODO()
public override operator fun Int.plus(other: RationalFunction<C>): RationalFunction<C> =
RationalFunction(
other.denominator * this + other.numerator,
other.denominator
)
/**
* 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 override operator fun Int.minus(other: RationalFunction<C>): RationalFunction<C> = TODO()
public override operator fun Int.minus(other: RationalFunction<C>): RationalFunction<C> =
RationalFunction(
other.denominator * this - other.numerator,
other.denominator
)
/**
* 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 override operator fun Int.times(other: RationalFunction<C>): RationalFunction<C> = TODO()
public override operator fun Int.times(other: RationalFunction<C>): RationalFunction<C> =
RationalFunction(
this * other.numerator,
other.denominator
)
// endregion
// region Constant-rational relation
/**
* Returns sum of the constant represented as rational function and the rational function.
*/
public override operator fun C.plus(other: RationalFunction<C>): RationalFunction<C> = TODO()
public override operator fun C.plus(other: RationalFunction<C>): RationalFunction<C> =
RationalFunction(
other.denominator * this + other.numerator,
other.denominator
)
/**
* Returns difference between the constant represented as polynomial and the rational function.
*/
public override operator fun C.minus(other: RationalFunction<C>): RationalFunction<C> = TODO()
public override operator fun C.minus(other: RationalFunction<C>): RationalFunction<C> =
RationalFunction(
other.denominator * this - other.numerator,
other.denominator
)
/**
* Returns product of the constant represented as polynomial and the rational function.
*/
public override operator fun C.times(other: RationalFunction<C>): RationalFunction<C> = TODO()
public override operator fun C.times(other: RationalFunction<C>): RationalFunction<C> =
RationalFunction(
this * other.numerator,
other.denominator
)
// endregion
// region Rational-constant relation
@ -166,15 +190,27 @@ public class RationalFunctionSpace<C, A : Ring<C>> (
/**
* Returns sum of the polynomial represented as rational function and the rational function.
*/
public override operator fun Polynomial<C>.plus(other: RationalFunction<C>): RationalFunction<C> = TODO()
public override operator fun Polynomial<C>.plus(other: RationalFunction<C>): RationalFunction<C> =
RationalFunction(
other.denominator * this + other.numerator,
other.denominator
)
/**
* Returns difference between the polynomial represented as polynomial and the rational function.
*/
public override operator fun Polynomial<C>.minus(other: RationalFunction<C>): RationalFunction<C> = TODO()
public override operator fun Polynomial<C>.minus(other: RationalFunction<C>): RationalFunction<C> =
RationalFunction(
other.denominator * this - other.numerator,
other.denominator
)
/**
* Returns product of the polynomial represented as polynomial and the rational function.
*/
public override operator fun Polynomial<C>.times(other: RationalFunction<C>): RationalFunction<C> = TODO()
public override operator fun Polynomial<C>.times(other: RationalFunction<C>): RationalFunction<C> =
RationalFunction(
this * other.numerator,
other.denominator
)
// endregion
// region Rational-polynomial relation