NAME
Astro::Montenbruck::Ephemeris::Planet - Base class for a planet.
SYNOPSIS
package Astro::Montenbruck::Ephemeris::Planet::Mercury;
use base qw/Astro::Montenbruck::Ephemeris::Planet/;
...
sub heliocentric {
# implement the method
}
DESCRIPTION
Base class for a planet. Designed to be extended. Used internally in Astro::Montenbruck::Ephemeris modules. Subclasses must implement heliocentric method.
SUBROUTINES/METHODS
$planet = Astro::Montenbruck::Ephemeris::Planet->new( $id )
Constructor. $id is identifier from @PLANETS
array (See "EXPORTED CONSTANTS").
$self->apparent($t, $lbr, $sun, $nut_func)
Geocentric ecliptic coordinates of a planet, referred to the true equinox of date.
Arguments
$t — time in Julian centuries since J2000:
(JD-2451545.0) / 36525.0
$lbr — arrayref of heliocentric coordinates of the planet returned by $self->heliocentric($t)
$sun — ecliptic geocentric coordinates of the Sun (hashref with 'l', 'b', 'r' keys), returned by Astro::Montenbruck::Ephemeris::Planet::Sun::sunpos($t)
$nut_func — function for converting geocntric coordinates from mean to true equinox of date, returned by Astro::Montenbruck::NutEqu::mean2true($t)
Returns
Array of geocentric ecliptical coordinates.
longitude, arc-degrees
latitude, arc-degrees
distance from Earth, AU
$self->heliocentric($t)
Given time in centuries since epoch 2000.0, calculate heliocentric ecliptical coordinates ($l, $b, $r)
.
$l — longitude, arc-degrees
$b — latitude, arc-degrees
$r — distance from Earth, A.U.
EXPORTED CONSTANTS
$MO
— Moon$SU
— Sun$ME
— Mercury$VE
— Venus$MA
— Mars$JU
— Jupiter$SA
— Saturn$UR
— Uranus$NE
— Neptune$PL
— Pluto@PLANETS
— array containing all the ids listed above
AUTHOR
Sergey Krushinsky, <krushi at cpan.org>
COPYRIGHT AND LICENSE
Copyright (C) 2009-2022 by Sergey Krushinsky
This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.