Esempio n. 1
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;
        }
}
Esempio n. 2
0
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;
}
Esempio n. 3
0
double SkyPoint::vRSun(long double jd0) {

    double ca, sa, cd, sd, vsun;
    double cosRA, sinRA, cosDec, sinDec;

    /* Sun apex (where the sun goes) coordinates */

    dms asun(270.9592);	// Right ascention: 18h 3m 50.2s [J2000]
    dms dsun(30.00467);	// Declination: 30^o 0' 16.8'' [J2000]
    vsun=20.;		// [km/s]

    asun.SinCos(sa,ca);
    dsun.SinCos(sd,cd);

    /* We need an auxiliary SkyPoint since we need the
    * source referred to the J2000 equinox and we do not want to ovewrite
    * the current values
    */

    SkyPoint aux;
    aux.set(RA0,Dec0);

    aux.precessFromAnyEpoch(jd0, J2000);

    aux.ra().SinCos( sinRA, cosRA );
    aux.dec().SinCos( sinDec, cosDec );

    /* Computation is done performing the scalar product of a unitary vector
    in the direction of the source with the vector velocity of Sun, both being in the
    LSR reference system:
    Vlsr	= Vhel + Vsun.u_radial =>
    Vlsr 	= Vhel + vsun(cos D cos A,cos D sen A,sen D).(cos d cos a,cos d sen a,sen d)
    Vhel 	= Vlsr - Vsun.u_radial
    */

    return vsun *(cd*cosDec*(cosRA*ca + sa*sinRA) + sd*sinDec);

}
Esempio n. 4
0
void CatalogDB::GetAllObjects(const QString &catalog,
                              QList< SkyObject* > &sky_list,
                              QList < QPair <int, QString> > &object_names,
                              CatalogComponent *catalog_ptr) {
    sky_list.clear();
    QString selected_catalog = QString::number(FindCatalog(catalog));
    skydb_.open();
    QSqlQuery get_query(skydb_);
    get_query.prepare("SELECT Epoch, Type, RA, Dec, Magnitude, Prefix, "
                      "IDNumber, LongName, MajorAxis, MinorAxis, "
                      "PositionAngle, Flux FROM ObjectDesignation JOIN DSO "
                      "JOIN Catalog WHERE Catalog.id = :catID AND "
                      "ObjectDesignation.id_Catalog = Catalog.id AND "
                      "ObjectDesignation.UID_DSO = DSO.UID");
    get_query.bindValue("catID", selected_catalog);

//     kWarning() << get_query.lastQuery();
//     kWarning() << get_query.lastError();
//     kWarning() << FindCatalog(catalog);

    if (!get_query.exec()) {
        kWarning() << get_query.lastQuery();
        kWarning() << get_query.lastError();
    }

    while (get_query.next()) {

        int cat_epoch = get_query.value(0).toInt();
        unsigned char iType = get_query.value(1).toInt();
        dms RA(get_query.value(2).toDouble());
        dms Dec(get_query.value(3).toDouble());
        float mag = get_query.value(4).toFloat();
        QString catPrefix = get_query.value(5).toString();
        int id_number_in_catalog = get_query.value(6).toInt();
        QString lname = get_query.value(7).toString();
        float a = get_query.value(8).toFloat();
        float b = get_query.value(9).toFloat();
        float PA = get_query.value(10).toFloat();
        float flux = get_query.value(11).toFloat();

        QString name = catPrefix + ' ' + QString::number(id_number_in_catalog);
        SkyPoint t;
        t.set(RA, Dec);

        if (cat_epoch == 1950) {
            // Assume B1950 epoch
            t.B1950ToJ2000();  // t.ra() and t.dec() are now J2000.0
                               // coordinates
        } else if (cat_epoch == 2000) {
            // Do nothing
                 { }
               } else {
                 // FIXME: What should we do?
                 // FIXME: This warning will be printed for each line in the
                 //        catalog rather than once for the entire catalog
                 kWarning() << "Unknown epoch while dealing with custom "
                               "catalog. Will ignore the epoch and assume"
                               " J2000.0";
        }

        RA = t.ra();
        Dec = t.dec();

        if (iType == 0) {  // Add a star
            StarObject *o = new StarObject(RA, Dec, mag, lname);
            sky_list.append(o);
        } else {  // Add a deep-sky object
            DeepSkyObject *o = new DeepSkyObject(iType, RA, Dec, mag,
                                                 name, QString(), lname,
                                                 catPrefix, a, b, -PA);
            o->setFlux(flux);
            o->setCustomCatalog(catalog_ptr);

            sky_list.append(o);

            // Add name to the list of object names
            if (!name.isEmpty()) {
                object_names.append(qMakePair<int,QString>(iType, name));
            }
        }

        if (!lname.isEmpty() && lname != name) {
            object_names.append(qMakePair<int,QString>(iType, lname));
        }
    }

    get_query.clear();
    skydb_.close();
}