/**
* Creates a new Cartesian vector instance
*
* @param Frame $frame Reference frame
* @param Epoch|AstroDate $epoch Observation epoch
* @param Distance $x x position
* @param Distance $y y position
* @param Distance $z z position
* @param Velocity $vx x velocity
* @param Velocity $vy y velocity
* @param Velocity $vz z velocity
*/
public function __construct(Frame $frame, $epoch, Distance $x, Distance $y, Distance $z, Velocity $vx = null, Velocity $vy = null, Velocity $vz = null)
{
// Set reference frame and observation epoch
$this->frame = $frame;
$this->epoch = $epoch instanceof Epoch ? $epoch : $epoch->toEpoch();
// Set position components
$this->x = $x;
$this->y = $y;
$this->z = $z;
// Set velocity components
$this->vx = $vx;
$this->vy = $vy;
$this->vz = $vz;
// Set default rounding and units
$this->decimalPlaces = 13;
}
/**
* @covers Marando\AstroCoord\Frame::FK4
*/
public function testFK4()
{
$equinoxes = [Epoch::B1950(), Epoch::B1900(), Epoch::B(1948), Epoch::dt(AstroDate::now())];
foreach ($equinoxes as $e) {
$equinox = $e;
$fk4 = Frame::FK4($e);
$this->assertEquals('FK4', $fk4->name);
$this->assertEquals($equinox, $fk4->equinox);
}
}
/**
* @covers Marando\AstroDate\AstroDate::toEpoch
*/
public function testToEpoch()
{
$dt = new AstroDate(2000, 1, 1, 12, 0, 0, null, TimeScale::TT());
$this->assertEquals((string) Epoch::J2000(), (string) $dt->toEpoch());
}
public function test()
{
return;
$frame = Frame::ICRF();
$epoch = Epoch::J(2000);
echo $epoch->toDate()->toTDB();
echo "\n";
echo "\n";
exit;
$ra = \Marando\Units\Time::hms(11, 16, 46.6);
$dec = \Marando\Units\Angle::dms(5, 45, 32.5);
$dist = Distance::au(5.8);
echo "\n" . ($eq = new Equat($frame, $epoch, $ra, $dec, $dist));
echo "\n" . ($eq = (new Equat($frame, $epoch, $ra, $dec, $dist))->apparent());
echo "\n";
return;
$frame = Frame::ICRF();
$epoch = AstroDate::jd(2457335.472615741)->toEpoch();
$ra = \Marando\Units\Time::hms(11, 16, 46.6);
$dec = \Marando\Units\Angle::dms(5, 45, 32.5);
$dist = Distance::au(5.8);
echo "\n" . ($eq = new Equat($frame, $epoch, $ra, $dec, $dist));
echo "\n" . ($eq = (new Equat($frame, $epoch, $ra, $dec, $dist))->apparent());
$eq = new Equat($frame, $epoch, $ra, $dec, $dist);
$eq->topo = Geo::deg(27, -82);
echo "\n" . $eq->toHoriz();
echo "\n" . $eq->apparent();
echo "\n" . ($h = $eq->toHoriz());
echo "\n" . $h->az->deg . "\t" . $h->alt->deg;
echo "\n" . $eq->apparent(\Marando\Units\Pressure::mbar(100), \Marando\Units\Temperature::F(90), 0.85);
echo "\n" . $eq->toHoriz();
return;
$ra = \Marando\Units\Time::hours(14.424354);
$dec = \Marando\Units\Angle::deg(33.54366);
$dist = Distance::au(1.5);
$geo = Geo::deg(27, -82);
$e = new Equat(Frame::ICRF(), Epoch::jd(2455586), $ra, $dec, $dist);
$e->topo = $geo;
echo "\n\n" . $e;
echo "\n" . $e->apparent();
$e = new Equat(Frame::ICRF(), Epoch::jd(2455586), $ra, $dec, $dist);
$e->topo = $geo;
echo "\n" . $e->apparent();
$e = new Equat(Frame::ICRF(), Epoch::jd(2455586), $ra, $dec, $dist);
$e->topo = $geo;
echo "\n" . $e->toHoriz();
return;
$e = new Equat(Frame::ICRF(), Epoch::jd(2455586), $ra, $dec, $dist);
echo "\n\n" . $e;
echo "\n" . $e->apparent($geo);
echo "\n" . $e->apparent()->toHoriz($geo);
$e = new Equat(Frame::ICRF(), Epoch::jd(2455586), $ra, $dec, $dist);
echo "\n\n" . $e;
echo "\n" . $e->apparent();
echo "\n" . $e->apparent()->toHoriz();
$e = new Equat(Frame::ICRF(), Epoch::jd(2451586), $ra, $dec, $dist);
$e->topo = $geo;
echo "\n\n" . $e;
echo "\n" . $e->apparent();
echo "\n" . $e->apparent()->toHoriz();
return;
// Position of Mercury
$x = Distance::au(+1.18052679326447);
$y = Distance::au(-0.3650485652522116);
$z = Distance::au(-0.2123422968928603);
// Velocity of Mercury
$vx = Velocity::aud(0.02052320553396918);
$vy = Velocity::aud(0.02828864020900079);
$vz = Velocity::aud(0.01145246106968459);
// Frame & epoch
$frame = Frame::ICRF();
$epoch = AstroDate::parse('2015-Mar-20')->toEpoch();
$c = new Cartesian($frame, $epoch, $x, $y, $z, $vx, $vy, $vz);
echo "\n\n";
echo $c;
echo "\n\n";
echo $c->setUnit('km km/d');
echo "\n\n";
echo $c->setUnit('km km/s');
echo "\n\n";
echo $c->toEquat();
echo "\n\n";
echo $c->toEquat()->apparent();
echo "\n\n";
echo $c->toEquat()->apparent(Geo::deg(27, 278));
echo "\n\n";
echo $c->toEquat()->toHoriz(Geo::deg(27, 278));
echo "\n\n";
}
/**
* Performs a [IRCS -> observed] coordinate transformation for the parameters
* of this instance
* @param string $type Coordintate type, 'e' for equat 'h' for horiz
* @return static|Horiz
*/
protected function ICRStoObserved($type = 'e', Pressure $pressure = null, Temperature $temp = null, $humidity = null)
{
// Instance initial properties
$rc = $this->ra->toAngle()->rad;
$dc = $this->dec->rad;
$date1 = $this->epoch->toDate()->toTDB()->toJD();
$pr = 0;
$pd = 0;
$rv = 0;
$px = $this->dist->au > 0 ? 8.794 / 3600 / $this->dist->au : 0;
$utc1 = $this->epoch->toDate()->toUTC()->toJD();
$dut1 = IERS::jd($utc1)->dut1();
$elong = $this->topo ? $this->topo->lon->rad : 0;
$phi = $this->topo ? $this->topo->lat->rad : 0;
$hm = 0;
//$this->obsrv->height->m;
$xp = IERS::jd($utc1)->x() / 3600 * pi() / 180;
$yp = IERS::jd($utc1)->y() / 3600 * pi() / 180;
$phpa = $pressure ? $pressure->mbar : 0;
$tc = $temp ? $temp->c : 0;
$rh = $humidity ? $humidity : 0;
$wl = 0.55;
// ICRS -> CIRS (geocentric observer)
IAU::Atci13($rc, $dc, $pr, $pd, $px, $rv, $date1, 0, $ri, $di, $eo);
// CIRS -> ICRS (astrometric)
//IAU::Atic13($ri, $di, $date1, 0, $rca, $dca, $eo);
// ICRS (astrometric) -> CIRS (geocentric observer)
//IAU::Atci13($rca, $dca, $pr, $pd, $px, $rv, $date1, 0, $ri, $di, $eo);
// Apparent place ?
//$ri = $ri - $eo;
//$di = $di;
//
// CIRS -> topocentric
IAU::Atio13($ri, $di, $utc1, 0, $dut1, $elong, $phi, $hm, $xp, $yp, $phpa, $tc, $rh, $wl, $aob, $zob, $hob, $dob, $rob);
if ($type == 'e') {
// Copy this instance, and override the apparent RA and Decl
$topocentric = $this->copy();
$topocentric->ra = Angle::rad($rob)->toTime();
$topocentric->dec = Angle::rad($dob);
$topocentric->apparent = true;
// Return apparent coordinates
return $topocentric;
} else {
// Prepare new horizontal instance
$horiz = new Horiz(Angle::rad(deg2rad(90) - $zob), Angle::rad($aob), $this->dist);
return $horiz;
}
}
/**
* Represents the Fourth Fundamental Catalogue, FK4
*
* @param Epoch $equinox An optional frame epoch, default is B1950.0
* @return static
*/
public static function FK4(Epoch $equinox = null)
{
return new static('FK4', $equinox ? $equinox : Epoch::B1950());
}
public function test()
{
return;
// Converts to J2000.0
echo "\n" . AstroDate::parse('2000-Jan-1 12:00:00 TT')->toEpoch();
// Isn't J2000.0 so represented as date
echo "\n" . ($e = AstroDate::parse('2000-Jan-1 14:00:00 TT')->toEpoch());
echo "\n\n" . AstroDate::now()->toEpoch();
$d = AstroDate::now()->setTimezone('est');
echo "\n\n" . $d->sinceMidnight();
echo "\n\n";
return;
echo "\n" . ($d = AstroDate::now()->setTimezone(TimeZone::UT(-7)));
echo "\n" . TimeScale::TT()->abr;
echo "\n" . TimeScale::TT()->name;
echo "\n" . Epoch::J2000();
echo "\n" . Epoch::J1900();
echo "\n" . Epoch::B1950();
echo "\n" . Epoch::B1900();
echo "\n" . Epoch::B(1954.4423);
echo "\n" . Epoch::jd(2455200.5);
echo "\n\n" . Epoch::J2000()->toDate();
echo "\n" . Epoch::J1900()->toDate();
echo "\n" . Epoch::B1950()->toDate();
echo "\n" . Epoch::B1900()->toDate();
echo "\n" . Epoch::B(1954.4423)->toDate();
echo "\n\n" . AstroDate::now();
echo "\n" . ($d = AstroDate::now()->setTimezone(TimeZone::parse('EST')));
echo "\n" . $d->toTDB();
echo "\n" . $d->toUTC();
echo "\n" . ($d = AstroDate::now()->setTimezone('MST'));
echo "\n" . ($d = AstroDate::now()->setTimezone('PST'));
return;
echo "\n" . AstroDate::parse('2015-Dec-10 6:00');
echo "\n" . AstroDate::parse('2015-Dec-10 6:00')->setTimezone(TimeZone::parse('EST'));
echo "\n" . AstroDate::now();
echo "\n" . AstroDate::now()->setTimezone(TimeZone::parse('EST'));
echo "\n" . AstroDate::now()->setTimezone(TimeZone::parse('PST'));
echo "\n" . AstroDate::now()->setTimezone(TimeZone::UT(6));
echo "\n" . TimeZone::parse('est')->offset;
echo "\n" . TimeZone::parse('est')->offset(2451545.5);
echo "\n" . TimeZone::parse('est')->offset(2451589.5);
return;
echo "\n" . TimeZone::UT(-2);
echo "\n" . TimeZone::parse('EST');
echo "\n" . AstroDate::now()->setTimezone(TimeZone::EST())->format(AstroDate::FORMAT_GOOGLE);
echo "\n" . AstroDate::now()->setTimezone(TimeZone::UT(-10.5))->format(AstroDate::FORMAT_GOOGLE);
echo "\n" . AstroDate::now()->setTimezone(TimeZone::UT(-10))->format(AstroDate::FORMAT_GOOGLE);
return;
$t = timezone_abbreviations_list();
$s = timezone_identifiers_list();
$e = timezone_name_from_abbr('est');
var_dump($t);
return;
$d = AstroDate::now()->setTimezone(TimeZone::EST());
echo "\n" . $d->format('r Y-M-c h:i:s.u A T');
echo "\n" . $d->sub(Time::days(15))->format(AstroDate::FORMAT_GENERIC);
echo "\n" . $d->sidereal('a');
echo "\n" . $d->sidereal('m');
echo "\n" . $d->format(AstroDate::FORMAT_JPL_FRAC);
echo "\n" . $d->sidereal('a', Angle::deg(-82.47));
echo "\n" . $d->sidereal('m', Angle::deg(-82.47));
echo "\n" . $d->sinceMidnight();
echo "\n" . $d->untilMidnight();
/**
* TODO:
*
* - Figure out formula for DST start and end
* - Figure out formula for Week # of year
*
*
*/
return;
echo "\n" . $d->format(DateTime::RSS);
echo "\n" . $d;
echo "\n" . $d->format(AstroDate::FORMAT_GENERIC);
echo "\n" . $d->format(DateTime::ISO8601);
return;
$str = '2016-Nov-14 17:07:07.120';
echo "\n" . ($d = AstroDate::parse($str));
echo "\n" . ($d = AstroDate::parse($str)->setTimezone(TimeZone::EST()));
echo "\n" . $d->format('Z T P O e u s i h H G g a A y Y n M m F W z D Y-m-d j');
$str = '2016-Nov-14 17:07:07.120 TAI';
echo "\n" . ($d = AstroDate::parse($str));
echo "\n" . $d->format('O e u s i h H G g a A y Y n M m F W z D Y-m-d j');
$str = '2015-Nov-1 17:07:07.120 UTC';
$d = AstroDate::parse($str);
echo "\n" . $d->format('z w S N l L D Y-m-d j');
return;
echo "\n\n" . ($str = '2015-Nov-16 17:07:07.120 TT');
echo "\n" . AstroDate::parse($str);
echo "\n\n" . ($str = '-1950-1-16 17:07:07 UTC');
echo "\n" . ($d = AstroDate::parse($str));
echo "\n" . $d->format('Y-m-d');
return;
echo "\n" . ($d = AstroDate::now());
echo "\n" . $d->toUT1();
echo "\n" . $d->toTAI();
echo "\n\n" . ($d = AstroDate::now(TimeZone::EST()));
echo "\n" . $d->toUT1();
echo "\n" . $d->toTAI();
return;
$d = new AstroDate(2017, 11, 15, 7, 0, 0);
echo "\n" . $d;
echo "\n" . $d->setTimezone(TimeZone::EST());
//var_dump($d);
$d = new AstroDate(2017, 6, 15, 7, 0, 0);
echo "\n\n" . $d;
echo "\n" . $d->setTimezone(TimeZone::EST());
//var_dump($d);
$d = new AstroDate(2017, 11, 15, 7, 0, 0);
echo "\n\n" . $d;
echo "\n" . $d->setTimezone(TimeZone::EST());
//var_dump($d);
$d = new AstroDate(2017, 6, 15, 6, 0, 0);
echo "\n\n" . $d;
echo "\n" . $d->setTimezone(TimeZone::EST());
//var_dump($d);
return;
$d = new AstroDate(2017, 11, 15, 0, 0, 0);
echo "\n" . $d;
echo "\n" . $d->jd();
echo "\n" . $d->jd(12);
echo "\n" . $d->toTT();
echo "\n" . $d->toJD();
echo "\n" . $d->jd(12);
echo "\n";
$d = new AstroDate(2015, 11, 15, 20, 23, 18, TimeZone::EST(), TimeScale::TT());
echo "\n" . $d;
echo "\n" . $d->setTimezone(TimeZone::UTC());
echo "\n" . $d->toUT1();
echo "\n" . $d->setTimezone(TimeZone::EST());
echo "\n" . $d->jd();
echo "\n" . $d->jd(12);
echo "\n" . $d->mjd();
echo "\n" . $d->mjd(12);
echo "\n" . $d->monthName();
echo "\n" . $d->mjd();
echo "\n\n" . $d->toTAI();
echo "\n" . $d->year;
echo "\n" . $d->month;
echo "\n" . $d->day;
echo "\n" . $d->hour;
echo "\n" . $d->min;
echo "\n" . $d->sec;
echo "\n" . $d->micro;
echo "\n" . $d->timezone;
echo "\n" . $d->timescale;
$d->year = 2020;
echo "\n" . $d;
$d->month = 12.13432;
echo "\n" . $d;
$d->sec = 12;
echo "\n" . $d;
echo "\n" . $d->add(Time::sec(0.5));
echo "\n" . $d->setDateTime(2017, 9, 4, 18, 34, 34.234);
var_dump($d->isLeapYear());
echo "\n" . $d->setDateTime(2016, 9, 4, 18, 34, 34.234);
var_dump($d->isLeapYear());
echo "\n" . $d->dayName();
$a = new AstroDate(2016, 12, 25, 19, 10, 2);
$b = new AstroDate(2015, 12, 25, 19, 10, 2);
echo "\n" . $a->diff($b);
echo "\n" . ($a = new AstroDate(2016, 12, 31, 19, 10, 2));
echo "\n" . ($b = new AstroDate(2015, 12, 31, 19, 10, 2));
echo "\n" . $a->dayOfYear();
echo "\n" . $b->dayOfYear();
echo "\n\n" . $b;
echo "\n" . $b->toTDB();
echo "\n" . $b->setTimezone(TimeZone::UTC());
echo "\n" . $b->toTDB();
echo "\n" . $b->setTimezone(TimeZone::EST());
echo "\n" . $b->toTDB();
echo "\n\n\n";
$d = new AstroDate(2015, 11, 15, 20, 23, 18.454334);
echo "\n" . $d;
echo "\n" . $d->setTimezone(TimeZone::EST());
echo "\n" . $d->toUTC();
echo "\n" . $d->toTAI();
echo "\n" . $d->setTimezone(TimeZone::EST());
echo "\n" . $d->toTT();
return;
$d = new AstroDate(2015, 11, 15, 20, 23, 18.454334);
echo "\n" . $d;
$d = new AstroDate(2015, 11, 15, 20, 23, 18.454334, TimeZone::EST());
echo "\n" . $d;
echo "\n" . $d->setDate(2020, 10, 2);
echo "\n" . $d->setTime(23, 59, 1);
echo "\n" . $d->setTimezone(TimeZone::UTC());
echo "\n" . $d->setTimezone(TimeZone::EST());
}
/**
* Converts this instance to an Epoch
* @return Epoch
*/
public function toEpoch()
{
return Epoch::dt($this->copy());
}
