コード例 #1
0
void modCalcAzel::slotComputeCoords()
{
	SkyPoint sp;
	double epoch0 = getEpoch( epochName->text() );
	KStarsDateTime dt;
	dt.setFromEpoch( epoch0 );
	long double jd = getDateTime().djd();
	long double jd0 = dt.djd();

	dms LST( getDateTime().gst().Degrees() + getLongitude().Degrees() );

	if(radioApCoords->isChecked()) {
		sp = getEquCoords();
		sp.apparentCoord(jd0, jd);
		dms lat(getLatitude());
		sp.EquatorialToHorizontal( &LST, &lat );
		showHorCoords( sp );

	} else {
		sp = getHorCoords();
		dms lat(getLatitude());
		sp.HorizontalToEquatorial( &LST, &lat );
		showEquCoords( sp );
	}

}
コード例 #2
0
SkyPoint EquirectangularProjector::fromScreen(const QPointF& p, dms* LST, const dms* lat) const
{
    SkyPoint result;

    //Convert pixel position to x and y offsets in radians
    double dx = (0.5*m_vp.width  - p.x())/m_vp.zoomFactor;
    double dy = (0.5*m_vp.height - p.y())/m_vp.zoomFactor;

        if ( m_vp.useAltAz ) {
            dms az, alt;
            dx = -1.0*dx;  //Azimuth goes in opposite direction compared to RA
            az.setRadians( dx + m_vp.focus->az().radians() );
            alt.setRadians( dy + m_vp.focus->alt().radians() );
            result.setAz( az.reduce() );
            if ( m_vp.useRefraction )
                alt = SkyPoint::unrefract( alt );
            result.setAlt( alt );
            result.HorizontalToEquatorial( LST, lat );
            return result;
        } else {
            dms ra, dec;
            ra.setRadians( dx + m_vp.focus->ra().radians() );
            dec.setRadians( dy + m_vp.focus->dec().radians() );
            result.set( ra.reduce(), dec );
            result.EquatorialToHorizontal( LST, lat );
            return result;
        }
}
コード例 #3
0
ファイル: modcalcaltaz.cpp プロジェクト: birefringence/kstars
void modCalcAltAz::slotCompute()
{
    //Determine whether we are calculating Alt/Az coordinates from RA/Dec,
    //or vice versa.  We calculate Alt/Az by default, unless the signal
    //was sent by changing the Az or Alt value.
    if ( sender()->objectName() == "Az" || sender()->objectName() == "Alt" ) {
        //Validate Az and Alt coordinates
        bool ok( false );
        dms alt;
        dms az = Az->createDms( true, &ok );
        if ( ok ) alt = Alt->createDms( true, &ok );
        if ( ok ) {
            SkyPoint sp;
            sp.setAz( az );
            sp.setAlt( alt );
            sp.HorizontalToEquatorial( &LST, geoPlace->lat() );
            RA->showInHours( sp.ra() );
            Dec->showInDegrees( sp.dec() );
        }

    } else {
        //Validate RA and Dec coordinates
        bool ok( false );
        dms ra;
        dms dec = Dec->createDms( true, &ok );
        if ( ok ) ra = RA->createDms( false, &ok );
        if ( ok ) {
            SkyPoint sp( ra, dec );
            sp.EquatorialToHorizontal( &LST, geoPlace->lat() );
            Az->showInDegrees( sp.az() );
            Alt->showInDegrees( sp.alt() );
        }
    }
}
コード例 #4
0
ファイル: projector.cpp プロジェクト: birefringence/kstars
SkyPoint Projector::pointAt(double az, KStarsData* data)
{
    SkyPoint p;
    p.setAz( az );
    p.setAlt( 0.0 );
    p.HorizontalToEquatorial( data->lst(), data->geo()->lat() );
    return p;
}
コード例 #5
0
ファイル: projector.cpp プロジェクト: birefringence/kstars
SkyPoint Projector::fromScreen(const QPointF& p, dms* LST, const dms* lat) const
{
    dms c;
    double sinc, cosc;
    /** N.B. We don't cache these sin/cos values in the inverse
      * projection because it causes 'shaking' when moving the sky.
      */
    double sinY0, cosY0;
    //Convert pixel position to x and y offsets in radians
    double dx = (0.5*m_vp.width  - p.x())/m_vp.zoomFactor;
    double dy = (0.5*m_vp.height - p.y())/m_vp.zoomFactor;

    double r = sqrt( dx*dx + dy*dy );
    c.setRadians( projectionL(r) );
    c.SinCos( sinc, cosc );

    if( m_vp.useAltAz ) {
        dx = -1.0*dx; //Azimuth goes in opposite direction compared to RA
        m_vp.focus->alt().SinCos( sinY0, cosY0 );
    } else {
        m_vp.focus->dec().SinCos( sinY0, cosY0 );
    }

    double Y = asin( cosc*sinY0 + ( dy*sinc*cosY0 )/r );
    double atop = dx*sinc;
    double abot = r*cosY0*cosc - dy*sinY0*sinc;
    double A = atan2( atop, abot );

    SkyPoint result;
    if ( m_vp.useAltAz ) {
        dms alt, az;
        alt.setRadians( Y );
        az.setRadians( A + m_vp.focus->az().radians() );
        if ( m_vp.useRefraction )
            alt = SkyPoint::unrefract( alt );
        result.setAlt( alt );
        result.setAz( az );
        result.HorizontalToEquatorial( LST, lat );
    } else {
        dms ra, dec;
        dec.setRadians( Y );
        ra.setRadians( A + m_vp.focus->ra().radians() );
        result.set( ra.reduce(), dec );
        result.EquatorialToHorizontal( LST, lat );
    }

    return result;
}
コード例 #6
0
HorizonComponent::HorizonComponent(SkyComposite *parent )
        : PointListComponent( parent )
{
    KStarsData *data = KStarsData::Instance();
    emitProgressText( i18n("Creating horizon" ) );

    //Define Horizon
    for ( unsigned int i=0; i<NCIRCLE; ++i ) {
        SkyPoint *o = new SkyPoint();
        o->setAz( i*360./NCIRCLE );
        o->setAlt( 0.0 );

        o->HorizontalToEquatorial( data->lst(), data->geo()->lat() );
        pointList().append( o );
    }
}
コード例 #7
0
void modCalcAzel::processLines( QTextStream &istream ) {

	// we open the output file

//	QTextStream istream(&fIn);
	QString outputFileName;
	outputFileName = OutputLineEditBatch->text();
	QFile fOut( outputFileName );
	fOut.open(IO_WriteOnly);
	QTextStream ostream(&fOut);

	QString line;
	QString space = " ";
	int i = 0;
	long double jd0, jdf;
	dms LST;
	SkyPoint sp;
	dms raB, decB, latB, longB, azB, elB;
	double epoch0B;
	QTime utB;
	ExtDate dtB;

	while ( ! istream.eof() ) {
		line = istream.readLine();
		line.stripWhiteSpace();

		//Go through the line, looking for parameters

		QStringList fields = QStringList::split( " ", line );

		i = 0;

		// Read Ut and write in ostream if corresponds
		
		if(utCheckBatch->isChecked() ) {
			utB = QTime::fromString( fields[i] );
			i++;
		} else
			utB = utBoxBatch->time();
		
		if ( allRadioBatch->isChecked() )
			ostream << utB.toString() << space;
		else
			if(utCheckBatch->isChecked() )
				ostream << utB.toString() << space;
			
		// Read date and write in ostream if corresponds
		
		if(dateCheckBatch->isChecked() ) {
			 dtB = ExtDate::fromString( fields[i] );
			 i++;
		} else
			dtB = dateBoxBatch->date();
		if ( allRadioBatch->isChecked() )
			ostream << dtB.toString().append(space);
		else
			if(dateCheckBatch->isChecked() )
			 	ostream << dtB.toString().append(space);
		
		// Read Longitude and write in ostream if corresponds
		
		if (longCheckBatch->isChecked() ) {
			longB = dms::fromString( fields[i],TRUE);
			i++;
		} else
			longB = longBoxBatch->createDms(TRUE);
		
		if ( allRadioBatch->isChecked() )
			ostream << longB.toDMSString() << space;
		else
			if (longCheckBatch->isChecked() )
				ostream << longB.toDMSString() << space;
		
		// Read Latitude


		if (latCheckBatch->isChecked() ) {
			latB = dms::fromString( fields[i], TRUE);
			i++;
		} else
			latB = latBoxBatch->createDms(TRUE);
		if ( allRadioBatch->isChecked() )
			ostream << latB.toDMSString() << space;
		else
			if (latCheckBatch->isChecked() )
				ostream << latB.toDMSString() << space;
		
		// Read Epoch and write in ostream if corresponds
	
		if(epochCheckBatch->isChecked() ) {
			epoch0B = fields[i].toDouble();
			i++;
		} else
			epoch0B = getEpoch( epochBoxBatch->text() );

		if ( allRadioBatch->isChecked() )
			ostream << epoch0B << space;
		else
			if(epochCheckBatch->isChecked() )
				ostream << epoch0B << space;

		// We make the first calculations
		KStarsDateTime dt;
		dt.setFromEpoch( epoch0B );
		jdf = KStarsDateTime(dtB,utB).djd();
		jd0 = dt.djd();

		LST = KStarsDateTime(dtB,utB).gst().Degrees() + longB.Degrees();
		
		// Equatorial coordinates are the input coords.
		if (!horInputCoords) {
		// Read RA and write in ostream if corresponds

			if(raCheckBatch->isChecked() ) {
				raB = dms::fromString( fields[i],FALSE);
				i++;
			} else
				raB = raBoxBatch->createDms(FALSE);

			if ( allRadioBatch->isChecked() )
				ostream << raB.toHMSString() << space;
			else
				if(raCheckBatch->isChecked() )
					ostream << raB.toHMSString() << space;

			// Read DEC and write in ostream if corresponds

			if(decCheckBatch->isChecked() ) {
				decB = dms::fromString( fields[i], TRUE);
				i++;
			} else
				decB = decBoxBatch->createDms();

			if ( allRadioBatch->isChecked() )
				ostream << decB.toDMSString() << space;
			else
				if(decCheckBatch->isChecked() )
					ostream << decB.toDMSString() << space;

			sp = SkyPoint (raB, decB);
			sp.apparentCoord(jd0, jdf);
			sp.EquatorialToHorizontal( &LST, &latB );
			ostream << sp.az()->toDMSString() << space << sp.alt()->toDMSString() << endl;

		// Input coords are horizontal coordinates
		
		} else {
			if(azCheckBatch->isChecked() ) {
				azB = dms::fromString( fields[i],FALSE);
				i++;
			} else
				azB = azBoxBatch->createDms();

			if ( allRadioBatch->isChecked() )
				ostream << azB.toHMSString() << space;
			else
				if(raCheckBatch->isChecked() )
					ostream << azB.toHMSString() << space;

			// Read DEC and write in ostream if corresponds

			if(elCheckBatch->isChecked() ) {
				elB = dms::fromString( fields[i], TRUE);
				i++;
			} else
				elB = decBoxBatch->createDms();

			if ( allRadioBatch->isChecked() )
				ostream << elB.toDMSString() << space;
			else
				if(elCheckBatch->isChecked() )
					ostream << elB.toDMSString() << space;

			sp.setAz(azB);
			sp.setAlt(elB);
			sp.HorizontalToEquatorial( &LST, &latB );
			ostream << sp.ra()->toHMSString() << space << sp.dec()->toDMSString() << endl;
		}

	}


	fOut.close();
}