LongCalc 0.4.7

There is a newer version of this package available.
See the version list below for details.
dotnet add package LongCalc --version 0.4.7                
NuGet\Install-Package LongCalc -Version 0.4.7                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="LongCalc" Version="0.4.7" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add LongCalc --version 0.4.7                
#r "nuget: LongCalc, 0.4.7"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install LongCalc as a Cake Addin
#addin nuget:?package=LongCalc&version=0.4.7

// Install LongCalc as a Cake Tool
#tool nuget:?package=LongCalc&version=0.4.7                

LongCalc Arbitrary Precision Float and Complex Number Library

Product Compatible and additional computed target framework versions.
.NET Framework net45 is compatible.  net451 was computed.  net452 was computed.  net46 was computed.  net461 was computed.  net462 was computed.  net463 was computed.  net47 was computed.  net471 was computed.  net472 was computed.  net48 was computed.  net481 was computed. 
Compatible target framework(s)
Included target framework(s) (in package)
Learn more about Target Frameworks and .NET Standard.

NuGet packages

This package is not used by any NuGet packages.

GitHub repositories

This package is not used by any popular GitHub repositories.

Version Downloads Last updated
0.5.36 126 9/30/2024
0.5.35 120 8/28/2024
0.5.34 1,116 2/10/2023
0.5.33 1,153 12/28/2021
0.5.32 1,232 10/2/2021
0.5.31 1,080 8/1/2021
0.5.30 1,103 3/25/2021
0.5.29 1,269 10/15/2020
0.5.28 1,198 9/24/2020
0.5.27 1,245 9/18/2020
0.5.26 1,354 9/17/2020 0.5.26 is deprecated because it has critical bugs.
0.5.25 1,253 9/6/2020
0.5.24 1,193 8/25/2020
0.5.23 1,251 8/5/2020
0.5.22 1,633 7/31/2020
0.5.21 1,644 7/30/2020
0.5.20 1,254 7/29/2020
0.5.19 1,246 7/28/2020
0.5.18 1,283 5/22/2020
0.5.17 1,250 5/19/2020
0.5.16 1,296 5/17/2020
0.5.15 1,283 5/17/2020
0.5.14 1,283 5/11/2020
0.5.13 1,377 5/3/2020
0.5.12 1,376 4/4/2020
0.5.11 1,249 3/31/2020
0.5.10 1,298 2/13/2020
0.5.9 1,349 2/8/2020
0.5.8 1,310 2/5/2020
0.5.7 1,422 1/21/2020
0.5.6 1,309 11/27/2019
0.5.5 1,289 11/16/2019
0.5.4 1,273 11/7/2019
0.5.3 1,303 11/2/2019
0.5.2 1,313 10/21/2019
0.5.1 1,522 7/29/2019
0.4.12 1,518 6/15/2019
0.4.11 1,513 6/10/2019
0.4.10 1,540 5/13/2019
0.4.9 1,625 4/15/2019
0.4.8 1,496 4/7/2019
0.4.7 1,517 3/23/2019
0.4.6 1,499 3/4/2019
0.4.5 1,543 3/4/2019
0.4.4 1,612 2/10/2019
0.4.3 1,823 1/30/2019
0.4.2 1,776 1/29/2019
0.4.1 1,796 1/29/2019
0.3.25 1,527 3/25/2019
0.3.24 1,518 3/4/2019
0.3.23 1,785 1/25/2019
0.3.22 1,836 1/23/2019
0.3.21 1,873 1/12/2019
0.3.20 1,829 1/4/2019
0.3.19 1,811 1/3/2019
0.3.18 1,819 12/30/2018
0.1.25 1,546 3/25/2019
0.1.24 1,541 3/4/2019
0.1.23 1,876 1/12/2019
0.1.22 1,797 12/24/2018
0.1.21 2,098 4/20/2018
0.1.16 1,957 9/2/2017
0.1.15 1,921 8/23/2017
0.1.11 1,827 8/4/2017
0.1.10 1,945 8/1/2017
0.1.8 1,833 7/27/2017
0.1.7 1,886 6/14/2017
0.1.6 1,919 6/14/2017
0.1.5 1,947 6/10/2017
0.1.2 2,201 11/22/2016
0.1.1 1,906 11/12/2016

Unsigned Assembly

Revisited the decision to implement x.Add(y, Precision) for all occurrances of x.Add:
That decision was ill-advised. For most occurrances of x.Add within the code, no truncation would occur anyway, and the function x.Add is less efficient with the Precision parameter than is the precise x.Add without the Precision parameter. For these situations, the precise x.Add without the Precision parameter is used.
For other situations (such as the hyperbolic functions) x.Add(1, Precision) is used to permit a calculation in which there is some confidence in the results returned, even for very large x.
However, for the situation of the inverse hyperbolic functions, use of x.Add(1, Precision) returned inaccurate results for very large x, and the use of x.Add(1) would have brought most machines to an impasse if x were very large.
In this version 0.4.7, a third variation of x.Add (internal use only) is employed in which the precise Add would occur if no truncation were needed and an error is thrown in those cases where the use of x.Add(1) would otherwise result in an impasse.
This third version is employed where appropriate in the inverse hyperbolic functions, Gamma, and Zeta.

Also in this version, the x.NormalizeAngle function is permitted to error-out if x is very large. This handles the situation of inaccurate results which were returned for large real x or complex-valued hyperbolic functions in which x.imaginary was very large.

Also in this version, there is a return to an earlier approach for x.Sin, x.Cos, x.Tan which was more efficient than that used in earlier versions 0.4.x.

Also in this version, there is a return to an approach for x.ArcTan which existed as early as version 0.1.5 and was rather more efficient than the corrupted code that occurred in later versions, especially for larger Precision.

There are also some other simple changes to improve the efficiency of functions x.toString, x.Round, x.Zeta, x.Euler, x.Bernoulli, x.Exp, and the trigonometric functions. Changes in which there is confidence.

Also some other simple changes to address possible inaccuracies in the hyperbolic functions, among others. Changes in which there is confidence.

Checks for arithmetic overflow or underflow are again compiler-included in this release.