VSOP87.NET 1.2.1

dotnet add package VSOP87.NET --version 1.2.1                
NuGet\Install-Package VSOP87.NET -Version 1.2.1                
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="VSOP87.NET" Version="1.2.1" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add VSOP87.NET --version 1.2.1                
#r "nuget: VSOP87.NET, 1.2.1"                
#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 VSOP87.NET as a Cake Addin
#addin nuget:?package=VSOP87.NET&version=1.2.1

// Install VSOP87.NET as a Cake Tool
#tool nuget:?package=VSOP87.NET&version=1.2.1                

VSOP87.NET

NuGet package NuGet package

What's this?

VSOP was developed and is maintained (updated with the latest data) by the scientists at the Bureau des Longitudes in Paris.

VSOP87, computed the positions of the planets directly at any moment, as well as their orbital elements with improved accuracy.

Original VSOP87 Solution was write by FORTRAN 77 . It's too old to use.

This repo is not just programming language translation, it's refactoring of VSOP87.

Features

  1. Use VSOPResult class to manage calculate results.

  2. Use VSOPTime class to manage time. </br>Easy to convert time by calling VSOPTime.UTC, VSOPTime.TAI, VSOPTime.TDB

  3. Very high performance per solution using multithread. Performance Test

  4. Useful Utility class. Such as checking planet available in specific version.

  5. Async Api

  6. Use MessagePack for binary serialize. <br>Initialization time becomes less than 10% of previous.

  7. FastLZMA2 compression on source data. ~34Mb → ~3MB with no data lost. <br>

How to use

  • NuGet Package Manager
    PM> NuGet\Install-Package VSOP87.NET -Version 1.1.6
    
using VSOP87;

Calculator vsop = new Calculator();

//Create VSOPTime using UTC, will auto trans to TDB in calculation.
DateTime Tinput = DateTime.Now;
VSOPTime vTime = new VSOPTime(Tinput.ToUniversalTime(),TimeFrame.UTC);

//Calculate Earth's present position with VSOP version D
var result=vsop.GetPlanetPosition(VSOPBody.EARTH, VSOPVersion.VSOP87D, vTime);

//VSOP version D Output LBR Coordinate.
//Neet cast to LBR result
VSOPResult_LBR Result_LBR = (VSOPResult_LBR)result;

//Print result

Console.WriteLine($"Version: {Enum.GetName(Result_LBR.Version)}");
Console.WriteLine($"Body: {Enum.GetName(Result_LBR.Body)}");
Console.WriteLine($"Coordinates Type: {Enum.GetName(Result_LBR.CoordinatesType)}");
Console.WriteLine($"Coordinates Reference: {Enum.GetName(Result_LBR.CoordinatesReference)}");
Console.WriteLine($"Reference Frame: {Enum.GetName(Result_LBR.ReferenceFrame)}");

Console.WriteLine($"Time UTC: {Result_LBR.Time.UTC.ToString("o")}");
Console.WriteLine($"Time TDB: {Result_LBR.Time.TDB.ToString("o")}");
Console.WriteLine("---------------------------------------------------------------");
Console.WriteLine(String.Format("{0,-33}{1,30}", "longitude (rad)", Result_LBR.l));
Console.WriteLine(String.Format("{0,-33}{1,30}", "latitude (rad)", Result_LBR.b));
Console.WriteLine(String.Format("{0,-33}{1,30}", "radius (au)", Result_LBR.r));
Console.WriteLine(String.Format("{0,-33}{1,30}", "longitude velocity (rd/day)", Result_LBR.dl));
Console.WriteLine(String.Format("{0,-33}{1,30}", "latitude velocity (rd/day)", Result_LBR.db));
Console.WriteLine(String.Format("{0,-33}{1,30}", "radius velocity (au/day)", Result_LBR.dr));
Console.WriteLine("===============================================================");

Change Log

v1.2.1 2024.09.19

Upgrade dependency FastLZMA2 = 1.0.0

v1.2.0 2024.08.10

Beaking Change Warning

migrate serializer to memorypack.

migrate data compress algorithm to FastLZMA2.

performance improvement.

.NET6&7 end of support.

v1.1.7 2024.01.14

Critical Bug fix.

V1.1.6 2023.07.07

Bug fix.

V1.1.5 2023.07.06

Inpired from vsop2013, Add dynamical equinox and ecliptic to ICRS frame conversion.

Use MessagePack and brotli to compress original data.

Some bug fix.

V1.1.2 2023.07.05

Bug fix

Add VSOPTime.JulianDate property

Delete float version. It's useful and nosense.

Add ELL coord to XYZ coord conversion.

Add ELL coord to LBR coord conversion.

add XYZ coord to LBR coord conversion

add LBR coord to XYZ coord conversion

function that convert ELL to XYZ is copy from VSOP2013.

This is a magic function way beyond my math level.

So I can't find how to inverse XYZ elements to ELL elements.

V1.1.0 2023.07.02

Bug fix

Move to .NET7 for better performance.

Add async api

Add performance test framework

<br>

v1.0.3 2023.03.23

Add float version calculator VSOP87.CalculatorF.

But no performance Improvement.

<br>

v1.0 2022.06.05

Code Cleaning.

Performance optimization.

<br>

beta 2022.03.12

A lot of new features.

Performance Optimization.

<br>

alpha 2021.12.04

I make a data converter

Converting text data file into binary serialized file and embed in core DLL

All 6 version solution & All planets supported

Original data and solution download

ftp://ftp.imcce.fr/pub/ephem/planets/vsop87/

VSOP87 algorithm remastered in C#

<br>

About VSOP87DATA.BIN

It's a RAM db that 80's would never imaging a computer can hold that huge amout data

It's loaded into RAM when initiate VSOP calculator class

<br>

Enviroment

.NET 8 Runtime Windows x64

<br>

API

Class Calculator

This Class provide double precision results.

<br>

Methods

VSOPResult Calculator.GetPlanetPosition(VSOPBody ibody, VSOPVersion iver, VSOPTime time)

Get Planet Position based on body, version, time.

Use Utility.AvailableBody(VSOPVersion ver) to check all available body in version.

<br>

Parameters

ibody VSOPBody

Enum of all planet in VSOP87.

iver VSOPVersion

Enum of all Version in VSOP87.

time VSOPTime

A wrapper of Datetime. Help converting between UTC & TDB.

<br>

Return

VSOPResult

abstract class contain 6 variables of planet position.

should be explicit cast to VSOPResult_ELL, VSOPResult_XYZ, VSOPResult_LBR.

<br/>

async Task<VSOPResult> GetPlanetPositionAsync(VSOPBody ibody, VSOPVersion iver, VSOPTime time)

Wrapper of GetPlanetPosition,but async.

<br/>

Class Utility

This Class Provide some useful function.

<br/>

Methods

static List<VSOPBody> ListAvailableBody(VSOPVersion ver)

Parameters

ver VSOPVersion

Enum of Version in VSOP87.

<br>

Return

List<VSOPBody>

All Available planets in this version.

<br>

static bool CheckAvailability(VSOPVersion ver, VSOPBody body)

Parameters

ver VSOPVersion

Enum of Version in VSOP87.

body VSOPVersion

Enum of body in VSOP87.

<br>

Return

bool

Is this version contain this body?

<br>

static CoordinatesType GetCoordinatesType(VSOPVersion ver)

Parameters

ver VSOPVersion

Enum of Version in VSOP87.

<br>

Return

CoordinatesType

Coordinates type based on version.

<br>

static CoordinatesReference GetCoordinatesRefrence(VSOPVersion ver)

Parameters

ver VSOPVersion

Enum of Version in VSOP87.

<br>

Return

CoordinatesReference

Coordinates reference based on version.

<br>

static TimeFrameReference GetTimeFrameReference(VSOPVersion ver)

Parameters

ver VSOPVersion

Enum of Version in VSOP87.

<br>

Return

TimeFrameReference

Time frame reference based on version.

<br>

static double[,] MultiplyMatrix(double[,] A, double[,] B)

A handy matrix multiply function

Parameters

A double[,]

Matrix A

<br>

B double[,]

Matrix B

<br>

Return

double[,]

Matrix C = AB.

<br>

static double[] XYZtoLBR(double[] xyz)

Parameters

xyz double[]

Array of cartesian coordinate elements

<br>

Return

double[]

Array of spherical coordinate elements

<br>

static double[] LBRtoXYZ(double[] lbr)

Parameters

lbr double[]

Array of spherical coordinate elements

<br>

Return

double[]

Array of cartesian coordinate elements

<br>

static double[] ELLtoXYZ(double[] ell)

This is a magic function I directly copy from VSOP2013.

It's way beyond my math level.

So I can't find how to inverse XYZ elements to ELL elements.

Need help.

Parameters

ell double[]

Array of elliptic coordinate elements

<br>

Return

double[]

Array of cartesian coordinate elements

<br>

static double[] ELLtoLBR(double[] ell)

Parameters

ell double[]

Array of elliptic coordinate elements

<br>

Return

double[]

Array of spherical coordinate elements

<br>

static double[] DynamicaltoICRS(double[] xyz)

Parameters

xyz double[]

Array of cartesian coordinate elements that inertial frame of dynamical equinox and ecliptic.

<br>

Return

double[]

Array of cartesian coordinate elements that inertial frame of ICRS equinox and ecliptic.

<br>

static double[] ICRStoDynamical(double[] xyz)

Parameters

xyz double[]

Array of cartesian coordinate elements that inertial frame of ICRS equinox and ecliptic.

<br>

Return

double[]

Array of cartesian coordinate elements that inertial frame of dynamical equinox and ecliptic.

<br>

Class VSOPResult_XYZ : VSOPResult

Constructor

public VSOPResult_XYZ(VSOPVersion version, VSOPBody body, VSOPTime time, double[] variables)

Arguments

version VSOPVersion

version of this result from calculator.

<br>

body VSOPBody

Planet

<br>

time VSOPTime

Time wrapper for VSOP

<br>

variables double[]

Raw Data from calculator.

<br>

VSOPResult_XYZ(VSOPResult_LBR result)

Create a new cartesian result from spherical result.

<br>

Arguments

result VSOPResult_LBR

<br>

VSOPResult_XYZ(VSOPResult_ELL result)

Create a new Cartisian result from ellipitic result.

<br>

Arguments

result VSOPResult_ELL

<br>

Properties

VSOPVersion Version { get; }

VSOP version of this result.

<br>

VSOPBody Body { get; }

Planet of this result.

<br>

CoordinatesType CoordinatesType { get; }

Coordinates type of this result.

<br>

CoordinatesReference CoordinatesRefrence { get; }

Coordinates reference of this result.

<br>

ReferenceFrame ReferenceFrame { get; set;}

ReferenceFrame of this result. Set to ReferenceFrame.ICRSJ2000 or ReferenceFrame.DynamicalJ2000 will automatically change coordinate field.

'Dynamical frame of the date' is not supported.

'Barycentric Coordinates' is not supported.

'Elliptic Coordinates' is not supported.

<br>

VSOPTime Time { get; }

Input time of this result.

<br>

double[] Variables { get;}

Raw data of this result.

<br>

double x {get;}

Position x (au)

double y {get;}

Position y (au)

double z {get;}

Position z (au)

double dx {get;}

Velocity x (au/day)

double dy {get;}

Velocity y (au/day)

double dz {get;}

Velocity z (au/day)

Methods

VSOPResult_LBR ToLBR()

Convert Result to Spherical coordinate.

<br>

Class VSOPResult_ELL : VSOPResult

Constructor

public VSOPResult_ELL((VSOPVersion version, VSOPBody body, VSOPTime time, double[] ell)

Create a new spherical result from cartesian result.

<br>

Arguments

version VSOPVersion

version of this result from calculator.

<br>

body VSOPBody

Planet

<br>

time VSOPTime

Time wrapper for VSOP

<br>

ell double[]

Raw result data from calculator.

<br>

Properties

VSOPVersion Version { get; }

VSOP version of this result.

<br>

VSOPBody Body { get; }

Planet of this result.

<br>

CoordinatesType CoordinatesType { get; }

Coordinates type of this result.

<br>

CoordinatesReference CoordinatesRefrence { get; }

Coordinates reference of this result.

<br>

ReferenceFrame ReferenceFrame { get; }

Reference frame of this result.

<br>

VSOPTime Time { get; }

Input time of this result.

<br>

double[] Variables { get;}

Raw data of this result.

<br>

double a {get;}

Semi-major axis (au)

double l {get;}

Mean longitude (rd)

double k {get;}

e*cos(pi) (rd)

double h {get;}

e*sin(pi) (rd)

double q {get;} sin(i/2)*cos(omega) (rd)

double p {get;}

sin(i/2)*sin(omega) (rd)

<br>

Methods

VSOPResult_XYZ ToXYZ()

Convert Result to Cartesian coordinate.

<br>

VSOPResult_LBR ToLBR()

Convert Result to Spherical coordinate.

<br>

Class VSOPResult_LBR : VSOPResult

Constructor

public VSOPResult_LBR(VSOPVersion version, VSOPBody body, VSOPTime time, double[] variables)

Arguments

version VSOPVersion

version of this result from calculator.

<br>

body VSOPBody

Planet

<br>

time VSOPTime

Time wrapper for VSOP

<br>

variables double[]

Raw Data from calculator.

<br>

VSOPResult_LBR(VSOPResult_XYZ result)

Create a new spherical result from cartesian result.

<br>

Arguments

result VSOPResult_XYZ

<br>

VSOPResult_XYZ(VSOPResult_ELL result)

Create a new Spherical result from ellipitic result.

<br>

Arguments

result VSOPResult_ELL

<br>

Properties

VSOPVersion Version { get; }

VSOP version of this result.

<br>

VSOPBody Body { get; }

Planet of this result.

<br>

CoordinatesType CoordinatesType { get; }

Coordinates type of this result.

<br>

CoordinatesReference CoordinatesRefrence { get; }

Coordinates reference of this result.

<br>

ReferenceFrame ReferenceFrame { get; set;}

ReferenceFrame of this result. Set to ReferenceFrame.ICRSJ2000 or ReferenceFrame.DynamicalJ2000 will automatically change coordinate field.

'Dynamical frame of the date' is not supported.

'Barycentric Coordinates' is not supported.

'Elliptic Coordinates' is not supported.

<br>

VSOPTime Time { get; }

Input time of this result.

<br>

double[] Variables { get;}

Raw data of this result.

<br>

double l {get;}

longitude (rd)

double b {get;}

latitude (rd)

double r {get;}

radius (au)

double dl {get;}

longitude velocity (rd/day)

double db {get;}

latitude velocity (rd/day)

double dr {get;}

radius velocity (au/day)

<br>

Methods

VSOPResult_XYZ ToXYZ()

Convert Result to Cartesian coordinate.

<br>

Class VSOPTime

summary

This class provide time convert and management for VSOP87.

<br>

Constructor

VSOPTime(DateTime dt, TimeFrame frame)

Time to initialize VSOPTime.

<br>

Properties

DateTime dt

time struct

<br>

DateTime TAI

International Atomic Time

<br>

DateTime TT

Terrestrial Time (aka. TDT)

<br>

DateTime TDB

Barycentric Dynamical Time

VSOP87 use this time frame.

double JulianDate

Get Julian Date from TDB.

<br>

Methods

static DateTime ChangeFrame(DateTime dt, TimeFrame SourceFrame, TimeFrame TargetFrame)

Parameters

dt DateTime

A Datetime of any frame.

<br>

SourceFrame TimeFrame

Time frame of dt

<br>

TargetFrame TimeFrame

Target time frame.

<br>

Return

DateTime

Datetime of target time Frame.

<br>

static double ToJulianDate(DateTime dt)

Parameters

dt DateTime

Datetime to convert

<br>

Return

double

Julian date.

<br>

static DateTime FromJulianDate(double JD)

Parameters

double

Julian date to analyze.

<br>

Return

dt DateTime

Datetime Class.

<br>

Product Compatible and additional computed target framework versions.
.NET net8.0 is compatible.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
Compatible target framework(s)
Included target framework(s) (in package)
Learn more about Target Frameworks and .NET Standard.

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Version Downloads Last updated
1.2.1 93 9/19/2024
1.1.7 167 1/14/2024 1.1.7 is deprecated because it is no longer maintained.