lunarPhase/inc/class.lunarphase.php
2015-04-23 18:45:00 +02:00

213 lines
7.2 KiB
PHP

<?php
# -- BEGIN LICENSE BLOCK ----------------------------------
# This file is part of lunarPhase, a plugin for Dotclear.
#
# Copyright (c) 2009-2015 Tomtom
# Contributor: Pierre Van Glabeke
#
# Licensed under the GPL version 2.0 license.
# A copy of this license is available in LICENSE file or at
# http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
# -- END LICENSE BLOCK ------------------------------------
if (!defined('DC_RC_PATH')) {return;}
class lunarPhase
{
# Astronomical constants.
const epoch = 2444238.5; # 1980 January 0.0
# Constants defining the Sun's apparent orbit.
const elonge = 278.833540; # ecliptic longitude of the Sun at epoch 1980.0
const elongp = 282.596403; # ecliptic longitude of the Sun at perigee
const eccent = 0.016718; # eccentricity of Earth's orbit
const sunsMax = 1.495985e8; # semi-major axis of Earth's orbit, km
const sunAngSiz = 0.533128; # sun's angular size, degrees, at semi-major axis distance
# Elements of the Moon's orbit, epoch 1980.0.
const mmLong = 64.975464; # moon's mean longitude at the epoch
const mmLongp = 349.383063; # mean longitude of the perigee at the epoch
const mlNode = 151.950429; # mean longitude of the node at the epoch
const mInc = 5.145396; # inclination of the Moon's orbit
const mEcc = 0.054900; # eccentricity of the Moon's orbit
const mAngSiz = 0.5181; # moon's angular size at distance a from Earth
const msMax = 384401.0; # semi-major axis of Moon's orbit in km
const mParallax = 0.9507; # parallax at distance a from Earth
const synodic = 29.53058868; # synodic month (new Moon to new Moon)
protected $live;
protected $previsions;
public function __construct()
{
$this->live = new ArrayObject;
$this->previsions = new ArrayObject;
$this->setLive();
$this->setPrevisions();
}
public function getLive()
{
return $this->live;
}
public function getPrevisions()
{
return $this->previsions;
}
private function setLive()
{
$day = $this->jTime(time()) - self::epoch;
# Calculate sun's position and angle
$N = $this->fixAngle((360 / 365.2422) * $day);
$M = $this->fixAngle($N + self::elonge - self::elongp);
$Ec = $this->kepler($M, self::eccent);
$Ec = sqrt((1 + self::eccent) / (1 - self::eccent)) * tan($Ec / 2);
$Ec = 2 * $this->toDeg(atan($Ec));
$lambdaSun = $this->fixAngle($Ec + self::elongp);
$F = ((1 + self::eccent * cos($this->toRad($Ec))) / (1 - self::eccent * self::eccent));
# Calculate moon's age, position and angle
$ml = $this->fixAngle(13.1763966 * $day + self::mmLong);
$MM = $this->fixAngle($ml - 0.1114041 * $day - self::mmLongp);
$MN = $this->fixAngle(self::mlNode - 0.0529539 * $day);
$Ev = 1.2739 * sin($this->toRad(2 * ($ml - $lambdaSun) - $MM));
$Ae = 0.1858 * sin($this->toRad($M));
$A3 = 0.37 * sin($this->toRad($M));
$MmP = $MM + $Ev - $Ae - $A3;
$mEc = 6.2886 * sin($this->toRad($MmP));
$A4 = 0.214 * sin($this->toRad(2 * $MmP));
$lP = $ml + $Ev + $mEc - $Ae + $A4;
$V = 0.6583 * sin($this->toRad(2 * ($lP - $lambdaSun)));
$lPP = $lP + $V;
$NP = $MN - 0.16 * sin($this->toRad($M));
$y = sin($this->toRad($lPP - $NP)) * cos($this->toRad(self::mInc));
$x = cos($this->toRad($lPP - $NP));
$lambdaMoon = $this->toDeg(atan2($y, $x));
$lambdaMoon += $NP;
$mage = $lPP - $lambdaSun;
$BetaM = $this->toDeg(asin(sin($this->toRad($lPP - $NP)) * sin($this->toRad(self::mInc))));
$this->live['illumination'] = (1 - cos($this->toRad($mage))) / 2;
$this->live['age'] = self::synodic * ($this->fixAngle($mage) / 360.0);
$this->live['dist_to_earth'] = (self::msMax * (1 - self::mEcc * self::mEcc)) / (1 + self::mEcc * cos($this->toRad($MmP + $mEc)));
$this->live['dist_to_sun'] = self::sunsMax / $F;
$this->live['sun_angle'] = $F * self::sunAngSiz;
$this->live['moon_angle'] = self::mAngSiz / ($this->live['dist_to_earth'] / self::msMax);
$this->live['parallax'] = self::mParallax / ($this->live['dist_to_earth'] / self::msMax);
$this->setPhase();
}
private function setPhase()
{
if ($this->live['age'] >= self::synodic || $this->live['age'] <= self::synodic/8) {
$this->live['id'] = 'new_moon';
$this->live['name'] = __('New moon');
}
elseif ($this->live['age'] >= self::synodic/8 && $this->live['age'] <= self::synodic/4) {
$this->live['id'] = 'waxing_crescent_moon';
$this->live['name'] = __('Waxing crescent moon');
}
elseif ($this->live['age'] >= self::synodic/4 && $this->live['age'] <= self::synodic*3/8) {
$this->live['id'] = 'first_quarter_moon';
$this->live['name'] = __('First quarter moon');
}
elseif ($this->live['age'] >= self::synodic*3/8 && $this->live['age'] <= self::synodic/2) {
$this->live['id'] = 'waxing_gibbous_moon';
$this->live['name'] = __('Waxing gibbous moon');
}
elseif ($this->live['age'] >= self::synodic/2 && $this->live['age'] <= self::synodic*5/8) {
$this->live['id'] = 'full_moon';
$this->live['name'] = __('Full moon');
}
elseif ($this->live['age'] >= self::synodic*5/8 && $this->live['age'] <= self::synodic*3/4) {
$this->live['id'] = 'waning_gibbous_moon';
$this->live['name'] = __('Waning gibbous moon');
}
elseif ($this->live['age'] >= self::synodic*3/4 && $this->live['age'] <= self::synodic*7/8) {
$this->live['id'] = 'last_quarter_moon';
$this->live['name'] = __('Last quarter moon');
}
elseif ($this->live['age'] >= self::synodic*7/8 && $this->live['age'] <= self::synodic) {
$this->live['id'] = 'waning_crescent_moon';
$this->live['name'] = __('Waning crescent moon');
}
}
private function setPrevisions()
{
$ts_day = 24*60*60;
$ts_synodic = self::synodic * $ts_day;
$start = time() - $this->live['age'] * $ts_day;
$this->previsions['waxing_crescent_moon'] = array(
'name' => __('Waxing crescent moon'),
'date' => $start + $ts_synodic / 8
);
$this->previsions['first_quarter_moon'] = array(
'name' => __('First quarter moon'),
'date' => $start + $ts_synodic / 4
);
$this->previsions['waxing_gibbous_moon'] = array(
'name' => __('Waxing gibbous moon'),
'date' => $start + $ts_synodic * 3 / 8
);
$this->previsions['full_moon'] = array(
'name' => __('Full moon'),
'date' => $start + $ts_synodic / 2
);
$this->previsions['waning_gibbous_moon'] = array(
'name' => __('Waning gibbous moon'),
'date' => $start + $ts_synodic * 5 / 8
);
$this->previsions['last_quarter_moon'] = array(
'name' => __('Last quarter moon'),
'date' => $start + $ts_synodic * 3 / 4
);
$this->previsions['waning_crescent_moon'] = array(
'name' => __('Waning crescent moon'),
'date' => $start + $ts_synodic * 7 / 8
);
$this->previsions['new_moon'] = array(
'name' => __('New moon'),
'date' =>$start + $ts_synodic
);
}
private function fixAngle($x)
{
return ($x - 360.0 * (floor($x / 360.0)));
}
private function toRad($x)
{
return ($x * (M_PI / 180.0));
}
private function toDeg($x)
{
return ($x * (180.0 / M_PI));
}
private function jTime($t)
{
return ($t / 86400) + 2440587.5;
}
private function kepler($m, $ecc)
{
$delta = null;
$EPSILON = 1e-6;
$m = $this->toRad($m);
$e = $m;
while (abs($delta) > $EPSILON)
{
$delta = $e - $ecc * sin($e) - $m;
$e -= $delta / (1 - $ecc * cos($e));
}
return ($e);
}
}