NuGet Gallery Feed for RationalsImplementation of rational number arithmetic for .NET with arbitrary precision.
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- separate whole and fractional part - any rational number can be separated into a whole part (integer quotient aka result of integer division) and fractional part (reminder of the integral division aka result of modulo operation)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
- continued fraction expansion - expand rational numbers to continued fraction (sequence of coefficients), construct rational numbers from sequence of continued fraction coefficients
- rational number approximation - approximate floating point numbers (decimal, double, float) as rational numbers with customizable tolerance
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4https://www-1.nuget.org/packages/Rationals/2020-12-28T17:48:49Zhttps://api.nuget.org/v3-flatcontainer/rationals/1.4.0/iconhttps://www-1.nuget.org/packages/Rationals/1.4.0Rationals 1.4.0+build.752020-12-28T17:46:42Z2020-12-28T17:48:49Ztompazourekhttps://www-1.nuget.org/profiles/tompazourekImplementation of rational number arithmetic for .NET with arbitrary precision.
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- separate whole and fractional part - any rational number can be separated into a whole part (integer quotient aka result of integer division) and fractional part (reminder of the integral division aka result of modulo operation)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
- continued fraction expansion - expand rational numbers to continued fraction (sequence of coefficients), construct rational numbers from sequence of continued fraction coefficients
- rational number approximation - approximate floating point numbers (decimal, double, float) as rational numbers with customizable tolerance
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4https://www-1.nuget.org/packages/Rationals/1.3.3Rationals 1.3.32019-01-15T18:41:32Z2019-01-15T18:45:46Ztompazourekhttps://www-1.nuget.org/profiles/tompazourekImplementation of rational number arithmetic for .NET with arbitrary precision.
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- separate whole and fractional part - any rational number can be separated into a whole part (integer quotient aka result of integer division) and fractional part (reminder of the integral division aka result of modulo operation)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
- continued fraction expansion - expand rational numbers to continued fraction (sequence of coefficients), construct rational numbers from sequence of continued fraction coefficients
- rational number approximation - approximate floating point numbers (decimal, double, float) as rational numbers with customizable tolerance
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4https://www-1.nuget.org/packages/Rationals/1.3.2Rationals 1.3.22018-09-15T11:31:01Z2018-09-15T11:35:15Ztompazourekhttps://www-1.nuget.org/profiles/tompazourekImplementation of rational number arithmetic for .NET with arbitrary precision.
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- separate whole and fractional part - any rational number can be separated into a whole part (integer quotient aka result of integer division) and fractional part (reminder of the integral division aka result of modulo operation)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
- continued fraction expansion - expand rational numbers to continued fraction (sequence of coefficients), construct rational numbers from sequence of continued fraction coefficients
- rational number approximation - approximate floating point numbers (decimal, double, float) as rational numbers with customizable tolerance
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4https://www-1.nuget.org/packages/Rationals/1.3.1Rationals 1.3.12017-11-18T12:27:31Z2018-12-01T11:31:46Ztompazourekhttps://www-1.nuget.org/profiles/tompazourekImplementation of rational number arithmetic for .NET with arbitrary precision.
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- separate whole and fractional part - any rational number can be separated into a whole part (integer quotient aka result of integer division) and fractional part (reminder of the integral division aka result of modulo operation)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
- continued fraction expansion - expand rational numbers to continued fraction (sequence of coefficients), construct rational numbers from sequence of continued fraction coefficients
- rational number approximation - approximate floating point numbers (decimal, double, float) as rational numbers with customizable tolerance
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4https://www-1.nuget.org/packages/Rationals/1.3.0Rationals 1.3.02017-11-11T15:01:48Z2018-12-01T11:31:46Ztompazourekhttps://www-1.nuget.org/profiles/tompazourekImplementation of rational number arithmetic for .NET with arbitrary precision.
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- separate whole and fractional part - any rational number can be separated into a whole part (integer quotient aka result of integer division) and fractional part (reminder of the integral division aka result of modulo operation)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
- continued fraction expansion - expand rational numbers to continued fraction (sequence of coefficients), construct rational numbers from sequence of continued fraction coefficients
- rational number approximation - approximate floating point numbers (decimal, double, float) as rational numbers with customizable tolerance
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4
https://www-1.nuget.org/packages/Rationals/1.2.1Rationals 1.2.12017-03-11T14:08:34Z2018-12-01T11:31:46Ztompazourekhttps://www-1.nuget.org/profiles/tompazourekImplementation of rational number arithmetics for .NET, written in C#
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- separate whole and fractional part - any rational number can be separated into a whole part (integer quotient aka result of integer division) and fractional part (reminder of the integral division aka result of modulo operation)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
- continued fraction expansion - expand rational numbers to continued fraction (sequence of coefficients), construct rational numbers from sequence of continued fraction coefficients
- rational number approximation - approximate floating point numbers (decimal, double, float) as rational numbers with customizable tolerance
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4https://www-1.nuget.org/packages/Rationals/1.2.0Rationals 1.2.02016-07-02T15:47:08Z2018-12-01T11:31:46Ztompazourekhttps://www-1.nuget.org/profiles/tompazourekImplementation of rational number arithmetics for .NET, written in C#
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- separate whole and fractional part - any rational number can be separated into a whole part (integer quotient aka result of integer division) and fractional part (reminder of the integral division aka result of modulo operation)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
- continued fraction expansion - expand rational numbers to continued fraction (sequence of coefficients), construct rational numbers from sequence of continued fraction coefficients
- rational number approximation - approximate floating point numbers (decimal, double, float) as rational numbers with customizable tolerance
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4https://www-1.nuget.org/packages/Rationals/1.1.1Rationals 1.1.12016-07-02T12:43:59Z2018-12-01T11:31:49Ztompazourekhttps://www-1.nuget.org/profiles/tompazourekImplementation of rational number arithmetics for .NET, written in C#
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- separate whole and fractional part - any rational number can be separated into a whole part (integer quotient aka result of integer division) and fractional part (reminder of the integral division aka result of modulo operation)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
- continued fraction expansion - expand rational numbers to continued fraction (sequence of coefficients), construct rational numbers from sequence of continued fraction coefficients
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4https://www-1.nuget.org/packages/Rationals/1.1.0Rationals 1.1.02016-07-02T12:20:58Z2018-12-01T11:31:46Ztompazourekhttps://www-1.nuget.org/profiles/tompazourekImplementation of rational number arithmetics for .NET, written in C#
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- separate whole and fractional part - any rational number can be separated into a whole part (integer quotient aka result of integer division) and fractional part (reminder of the integral division aka result of modulo operation)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
- continued fraction expansion - expand rational numbers to continued fraction (sequence of coefficients), construct rational numbers from sequence of continued fraction coefficients
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4
https://www-1.nuget.org/packages/Rationals/1.0.0Rationals 1.0.02014-11-01T17:18:19Z2018-12-01T11:31:45Ztompazourekhttps://www-1.nuget.org/profiles/tompazourekImplementation of rational number arithmetics for .NET
Supported features:
- implicit conversions - rationals integrate seamlessly with other number types
- unlimited precision - rationals use BigInteger inside
- canonical form - each rational can have its canonical form (irreducible fraction where denominator is always positive)
- comparison & equality
- multiple formatting options - ToString("C") (canonical form), ToString("W") (whole + fractional part), or normal fraction format
Example usage:
Rational left = (Rational) 1 / 2;
Rational right = (Rational) 1 / 4;
Rational sum = left + right; // equals to: 3 / 4