LongCalc 0.3.0

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dotnet add package LongCalc --version 0.3.0

NuGet\Install-Package LongCalc -Version 0.3.0

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="0.3.0" />

For projects that support PackageReference, copy this XML node into the project file to reference the package.

paket add LongCalc --version 0.3.0

The NuGet Team does not provide support for this client. Please contact its maintainers for support.

#r "nuget: LongCalc, 0.3.0"

#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=0.3.0

// Install LongCalc as a Cake Tool
#tool nuget:?package=LongCalc&version=0.3.0

The NuGet Team does not provide support for this client. Please contact its maintainers for support.

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.

- Mpir.NET (>= 0.4.0)

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
0.5.34	1,067	2/10/2023
0.5.33	1,111	12/28/2021
0.5.32	1,198	10/2/2021
0.5.31	1,046	8/1/2021
0.5.30	1,069	3/25/2021
0.5.29	1,240	10/15/2020
0.5.28	1,169	9/24/2020
0.5.27	1,210	9/18/2020
0.5.26	1,323	9/17/2020
0.5.25	1,220	9/6/2020
0.5.24	1,159	8/25/2020
0.5.23	1,219	8/5/2020
0.5.22	1,592	7/31/2020
0.5.21	1,599	7/30/2020
0.5.20	1,222	7/29/2020
0.5.19	1,219	7/28/2020
0.5.18	1,247	5/22/2020
0.5.17	1,216	5/19/2020
0.5.16	1,263	5/17/2020
0.5.15	1,250	5/17/2020
0.5.14	1,257	5/11/2020
0.5.13	1,338	5/3/2020
0.5.12	1,341	4/4/2020
0.5.11	1,224	3/31/2020
0.5.10	1,267	2/13/2020
0.5.9	1,312	2/8/2020
0.5.8	1,280	2/5/2020
0.5.7	1,389	1/21/2020
0.5.6	1,276	11/27/2019
0.5.5	1,253	11/16/2019
0.5.4	1,247	11/7/2019
0.5.3	1,260	11/2/2019
0.5.2	1,281	10/21/2019
0.5.1	1,493	7/29/2019
0.4.12	1,491	6/15/2019
0.4.11	1,487	6/10/2019
0.4.10	1,508	5/13/2019
0.4.9	1,580	4/15/2019
0.4.8	1,472	4/7/2019
0.4.7	1,485	3/23/2019
0.4.6	1,464	3/4/2019
0.4.5	1,506	3/4/2019
0.4.4	1,582	2/10/2019
0.4.3	1,789	1/30/2019
0.4.2	1,737	1/29/2019
0.4.1	1,762	1/29/2019
0.3.25	1,492	3/25/2019
0.3.24	1,490	3/4/2019
0.3.23	1,748	1/25/2019
0.3.22	1,803	1/23/2019
0.3.21	1,816	1/12/2019
0.3.20	1,795	1/4/2019
0.3.19	1,774	1/3/2019
0.3.18	1,784	12/30/2018
0.1.25	1,509	3/25/2019
0.1.24	1,511	3/4/2019
0.1.23	1,844	1/12/2019
0.1.22	1,756	12/24/2018
0.1.21	2,067	4/20/2018
0.1.16	1,929	9/2/2017
0.1.15	1,892	8/23/2017
0.1.11	1,797	8/4/2017
0.1.10	1,920	8/1/2017
0.1.8	1,799	7/27/2017
0.1.7	1,853	6/14/2017
0.1.6	1,889	6/14/2017
0.1.5	1,911	6/10/2017
0.1.2	2,174	11/22/2016
0.1.1	1,874	11/12/2016

With this revision, the twoexp (bf object two's exponent) has been made a long (Int64) variable. Also, Precisions (which are always represented as number of decimal digits) are specifically limited to no more than 323,000,000 digits. This is not much less than the natural limitation on precisions when multiplying the underlying mpz_t objects.

An effort has been made to check for overflows of the underlying mpz_t object when performing a bf 'Add' function. If an overflow were to occur, the user can now set the new bf.GlobalAllowAddTruncates flag to 'true' to allow the software objects to behave more like true 'floating-point' variables in which truncation of results of adds occurs on underflow or overflow of mantissa.

Many integers less than the maximum value of a bf object, which is ((2 ^ (int.MaxValue - 1)) - 1) * (2 ^ (long.MaxValue)), are not representable by this software. As a result, the bf Floor() function returns an error when applied to bf objects greater than (2 ^ (int.MaxValue - 1) - 1).

The bf function Normalize1() has been deprecated, and will return an error when applied to bf's greater than (2 ^ (int.MaxValue - 2)). Instead, use Normalize2(), which returns an equivalent bf with the mantissa minimized and the twoexp maximized.

A number of corrections and performance enhancements have been applied. For example, the bf Exp() exponential function now appears to work well up to inputs ~ 6.0E+18.

Scientific notation usage is now automatically applied to bf 'toString' outputs which would otherwise exceed 2,000,000,000 digits.