DelSquared.Radicals
1.1.0
.NET implementation of radical expressions enabling radical expression arithmetic.
InstallPackage DelSquared.Radicals Version 1.1.0
dotnet add package DelSquared.Radicals version 1.1.0
<PackageReference Include="DelSquared.Radicals" Version="1.1.0" />
paket add DelSquared.Radicals version 1.1.0
#r "nuget: DelSquared.Radicals, 1.1.0"
// Install DelSquared.Radicals as a Cake Addin
#addin nuget:?package=DelSquared.Radicals&version=1.1.0
// Install DelSquared.Radicals as a Cake Tool
#tool nuget:?package=DelSquared.Radicals&version=1.1.0
Radicals
Overview
.NET implementation of radical expressions, where the radicand is a rational number and the index is a positive integer. Enables arithmetic and string formatting of radical expressions, and can handle rational radicands of arbitrary precision (see dependencies). Seamlessly integrates with other numeric types such as int, long, and BigInteger.
NuGet package for this library is published here.
Usage
This library provides three structures to enable radical expression arithmetic:
 Radical
 RadicalSum
 RadicalSumRatio
Radical
The Radical structure encapsulates a single radical expression with rational radicand and positive integer index:
var sqrt2 = Radical.Sqrt(2); // Sqrt(2)
var sqrt_1_3 = Radical.Sqrt((Rational)1/3); // Sqrt(1/3) = (1/3)*Sqrt(3)
var root_3_1_2 = Radical.NthRoot((Rational)1/2, 3); // Root[3](1/2) = (1/2)*Root[3](4)
Note  see dependencies section for information on the Rational structure
The structure automatically simplifies radicals to simplest form, as described here.
Radicals can be multiplied and divided by other radicals, returning new Radicals:
var result1 = Radical.Sqrt(2) * Radical.Sqrt(3/4); // Sqrt(2) * Sqrt(3/4) = (1/2)*Sqrt(6)
var result2 = result1 * Radical.Sqrt(2); // (1/2)*Sqrt(6)*Sqrt(2) = Sqrt(3)
var result3 = result2 / result1; // Sqrt(3) / [(1/2)*Sqrt(6)] = Sqrt(2)
var result4 = result3 / Radical.Sqrt(5); // Sqrt(2) / Sqrt(5) = (1/5)*Sqrt(10)
They can also be multiplied and divided by most numeric types, returning new Radicals:
var result1 = Radical.Sqrt(2) * 3; // 3 * Sqrt(2)
var result2 = 4 * result1; // 4 * 3 * Sqrt(2) = 12 * Sqrt(2)
var result3 = result2 / 3; // 12 * Sqrt(2) / 3 = 4 * Sqrt(2)
var result4 = 5 / result3; // 5 / (4 * Sqrt(2)) = (5/8)*Sqrt(2)
Additionally, Radicals of differing indices can be multiplied and divided:
var result1 = Radical.Sqrt(2)
* Radical.NthRoot(2,3); // Sqrt(2) * Root[3](2) = Root[6](32)
var result2 = result1 / Root[3](5); // Root[6](32) / Root[3](5) = (1/5)*Root[6](20000)
RadicalSum
Radicals can also be added and subtracted from each other. However, unless they have identical indices and radicands, the simplest form result is not another radical, but instead is a sum of radicals. The RadicalSum structure encapsulates this notion and enables Radical addition and subtraction:
var result1 = Radical.Sqrt(2) + Radical.Sqrt(3); // Sqrt(2) + Sqrt(3)
var result2 = result1 + Radical.Sqrt(2); // [Sqrt(2) + Sqrt(3)] + Sqrt(2) = 2*Sqrt(2) + Sqrt(3)
var result3 = result1  Radical.NthRoot(5,3); // 2*Sqrt(2) + Sqrt(3) + (1)*Root[3](5)
var result4 = result3 + 11; // 11 + 2*Sqrt(2) + Sqrt(3) + (1)*Root[3](5)
Similar to Radicals, RadicalSums can be multiplied by most numeric types, Radicals, and other RadicalSums to return new RadicalSums...
var result1 =
(Radical.Sqrt(2) + Radical.Sqrt(3))
* Radical.Sqrt(2); // [Sqrt(2) + Sqrt(3)] * Sqrt(2) = 2 + Sqrt(6)
var result2 =
result1
* (Radical.Sqrt(5) + Radical.Sqrt(7)); // [2 + Sqrt(6)] * [Sqrt(5) + Sqrt(7)]
// = 2*Sqrt(5) + 2*Sqrt(7) + Sqrt(30) + Sqrt(35)
var result3 = result2 * 3; // 6*Sqrt(5) + 6*Sqrt(7) + 3*Sqrt(30) + 3*Sqrt(35)
...as well as divided by most numeric types and Radicals to return new RadicalSums:
var result4 = result3 / 2; // 3*Sqrt(5) + 3*Sqrt(7) + (3/2)*Sqrt(30) + (3/2)*Sqrt(35)
var result5 = result4 / Radical.Sqrt(2); // (3/2)*Sqrt(10) + (3/2)*Sqrt(14) + (3/2)*Sqrt(15) + (3/4)*Sqrt(70)
RadicalSumRatio
RadicalSums can also be divided by other RadicalSums. However the result is not another RadicalSum, but is instead a RadicalSumRatio where the numerator and denominator are both RadicalSums:
var result1 =
(Radical.Sqrt(2) + Radical.Sqrt(3))
/ (Radical.Sqrt(2)  Radical.Sqrt(3)); // Sqrt(2) + Sqrt(3)
// 
// Sqrt(2)  Sqrt(3)
All arithmetic operators between RadicalSumRatios and numeric types, Radicals, and RadicalSums will return new RadicalSumRatios.
Performance
This project was intended as a small fun side project. As such, I haven't put much effort or thought into optimization. While it suited my needs and should be okay for most casual implementations, don't expect optimal performance and use at your own risk! Of course, I'm always open to suggestions and improvements. ðŸ˜ƒ
Background
The original inspiration for this project came from working on a program that recursively calculates ClebschGordan coefficients. While this succeeded in generating the coefficients in decimal form, I wanted it to present them in radical form similarly to how they're usually presented in tables (e.g., here). I created this library to enable radical expression arithmetic during the calculation of the coefficients, and to format the result as usually presented in tables.
My ClebschGordan coefficient calculator utilizing the Radicals package can be found here.
Dependencies
This project is dependent on the following NuGet packages:
Rationals: Encapsulates rational numbers of theoretically arbitrary precision. Based on BigInteger.
Open.Numeric.Primes: Provides methods to get prime factorization of BigInteger values.
Radicals
Overview
.NET implementation of radical expressions, where the radicand is a rational number and the index is a positive integer. Enables arithmetic and string formatting of radical expressions, and can handle rational radicands of arbitrary precision (see dependencies). Seamlessly integrates with other numeric types such as int, long, and BigInteger.
NuGet package for this library is published here.
Usage
This library provides three structures to enable radical expression arithmetic:
 Radical
 RadicalSum
 RadicalSumRatio
Radical
The Radical structure encapsulates a single radical expression with rational radicand and positive integer index:
var sqrt2 = Radical.Sqrt(2); // Sqrt(2)
var sqrt_1_3 = Radical.Sqrt((Rational)1/3); // Sqrt(1/3) = (1/3)*Sqrt(3)
var root_3_1_2 = Radical.NthRoot((Rational)1/2, 3); // Root[3](1/2) = (1/2)*Root[3](4)
Note  see dependencies section for information on the Rational structure
The structure automatically simplifies radicals to simplest form, as described here.
Radicals can be multiplied and divided by other radicals, returning new Radicals:
var result1 = Radical.Sqrt(2) * Radical.Sqrt(3/4); // Sqrt(2) * Sqrt(3/4) = (1/2)*Sqrt(6)
var result2 = result1 * Radical.Sqrt(2); // (1/2)*Sqrt(6)*Sqrt(2) = Sqrt(3)
var result3 = result2 / result1; // Sqrt(3) / [(1/2)*Sqrt(6)] = Sqrt(2)
var result4 = result3 / Radical.Sqrt(5); // Sqrt(2) / Sqrt(5) = (1/5)*Sqrt(10)
They can also be multiplied and divided by most numeric types, returning new Radicals:
var result1 = Radical.Sqrt(2) * 3; // 3 * Sqrt(2)
var result2 = 4 * result1; // 4 * 3 * Sqrt(2) = 12 * Sqrt(2)
var result3 = result2 / 3; // 12 * Sqrt(2) / 3 = 4 * Sqrt(2)
var result4 = 5 / result3; // 5 / (4 * Sqrt(2)) = (5/8)*Sqrt(2)
Additionally, Radicals of differing indices can be multiplied and divided:
var result1 = Radical.Sqrt(2)
* Radical.NthRoot(2,3); // Sqrt(2) * Root[3](2) = Root[6](32)
var result2 = result1 / Root[3](5); // Root[6](32) / Root[3](5) = (1/5)*Root[6](20000)
RadicalSum
Radicals can also be added and subtracted from each other. However, unless they have identical indices and radicands, the simplest form result is not another radical, but instead is a sum of radicals. The RadicalSum structure encapsulates this notion and enables Radical addition and subtraction:
var result1 = Radical.Sqrt(2) + Radical.Sqrt(3); // Sqrt(2) + Sqrt(3)
var result2 = result1 + Radical.Sqrt(2); // [Sqrt(2) + Sqrt(3)] + Sqrt(2) = 2*Sqrt(2) + Sqrt(3)
var result3 = result1  Radical.NthRoot(5,3); // 2*Sqrt(2) + Sqrt(3) + (1)*Root[3](5)
var result4 = result3 + 11; // 11 + 2*Sqrt(2) + Sqrt(3) + (1)*Root[3](5)
Similar to Radicals, RadicalSums can be multiplied by most numeric types, Radicals, and other RadicalSums to return new RadicalSums...
var result1 =
(Radical.Sqrt(2) + Radical.Sqrt(3))
* Radical.Sqrt(2); // [Sqrt(2) + Sqrt(3)] * Sqrt(2) = 2 + Sqrt(6)
var result2 =
result1
* (Radical.Sqrt(5) + Radical.Sqrt(7)); // [2 + Sqrt(6)] * [Sqrt(5) + Sqrt(7)]
// = 2*Sqrt(5) + 2*Sqrt(7) + Sqrt(30) + Sqrt(35)
var result3 = result2 * 3; // 6*Sqrt(5) + 6*Sqrt(7) + 3*Sqrt(30) + 3*Sqrt(35)
...as well as divided by most numeric types and Radicals to return new RadicalSums:
var result4 = result3 / 2; // 3*Sqrt(5) + 3*Sqrt(7) + (3/2)*Sqrt(30) + (3/2)*Sqrt(35)
var result5 = result4 / Radical.Sqrt(2); // (3/2)*Sqrt(10) + (3/2)*Sqrt(14) + (3/2)*Sqrt(15) + (3/4)*Sqrt(70)
RadicalSumRatio
RadicalSums can also be divided by other RadicalSums. However the result is not another RadicalSum, but is instead a RadicalSumRatio where the numerator and denominator are both RadicalSums:
var result1 =
(Radical.Sqrt(2) + Radical.Sqrt(3))
/ (Radical.Sqrt(2)  Radical.Sqrt(3)); // Sqrt(2) + Sqrt(3)
// 
// Sqrt(2)  Sqrt(3)
All arithmetic operators between RadicalSumRatios and numeric types, Radicals, and RadicalSums will return new RadicalSumRatios.
Performance
This project was intended as a small fun side project. As such, I haven't put much effort or thought into optimization. While it suited my needs and should be okay for most casual implementations, don't expect optimal performance and use at your own risk! Of course, I'm always open to suggestions and improvements. ðŸ˜ƒ
Background
The original inspiration for this project came from working on a program that recursively calculates ClebschGordan coefficients. While this succeeded in generating the coefficients in decimal form, I wanted it to present them in radical form similarly to how they're usually presented in tables (e.g., here). I created this library to enable radical expression arithmetic during the calculation of the coefficients, and to format the result as usually presented in tables.
My ClebschGordan coefficient calculator utilizing the Radicals package can be found here.
Dependencies
This project is dependent on the following NuGet packages:
Rationals: Encapsulates rational numbers of theoretically arbitrary precision. Based on BigInteger.
Open.Numeric.Primes: Provides methods to get prime factorization of BigInteger values.
Release Notes
https://github.com/erjicles/Radicals/releases
Dependencies

.NETStandard 2.0
 Open.Numeric.Primes (>= 1.5.5)
 Rationals (>= 1.3.3)

.NETStandard 2.1
 Open.Numeric.Primes (>= 1.5.5)
 Rationals (>= 1.3.3)

net5.0
 Open.Numeric.Primes (>= 1.5.5)
 Rationals (>= 1.3.3)
Used By
NuGet packages
This package is not used by any NuGet packages.
GitHub repositories
This package is not used by any popular GitHub repositories.
Version History
Version  Downloads  Last updated 

1.1.0  76  1/18/2021 
1.0.0  196  2/1/2020 
1.0.0beta3  270  12/26/2019 
1.0.0beta2  251  5/27/2019 
1.0.0beta1  261  4/4/2019 