Beispiel #1
0
Datei: body.cpp Projekt: osv/cose
/*! Get the position of the body in the universal coordinate system.
 *  This method uses high-precision coordinates and is thus
 *  slower relative to getAstrocentricPosition(), which works strictly
 *  with standard double precision. For most purposes,
 *  getAstrocentricPosition() should be used instead of the more
 *  general getPosition().
 */
UniversalCoord Body::getPosition(double tdb) const
{
    Vector3d position = Vector3d::Zero();

    const TimelinePhase* phase = timeline->findPhase(tdb);
    Vector3d p = phase->orbit()->positionAtTime(tdb);
    ReferenceFrame* frame = phase->orbitFrame();

    while (frame->getCenter().getType() == Selection::Type_Body)
    {
        phase = frame->getCenter().body()->timeline->findPhase(tdb);
        position += frame->getOrientation(tdb).conjugate() * p;
        p = phase->orbit()->positionAtTime(tdb);
        frame = phase->orbitFrame();
    }

    position += frame->getOrientation(tdb).conjugate() * p;

    if (frame->getCenter().star())
        return frame->getCenter().star()->getPosition(tdb).offsetKm(position);
    else
        return frame->getCenter().getPosition(tdb).offsetKm(position);
}
Beispiel #2
0
Datei: body.cpp Projekt: osv/cose
/*! Get the velocity of the body in the universal frame.
 */
Vector3d Body::getVelocity(double tdb) const
{
    const TimelinePhase* phase = timeline->findPhase(tdb);

    ReferenceFrame* orbitFrame = phase->orbitFrame();

    Vector3d v = phase->orbit()->velocityAtTime(tdb);
    v = orbitFrame->getOrientation(tdb).conjugate() * v + orbitFrame->getCenter().getVelocity(tdb);

    if (!orbitFrame->isInertial())
    {
        Vector3d r = Selection(const_cast<Body*>(this)).getPosition(tdb).offsetFromKm(orbitFrame->getCenter().getPosition(tdb));
        v += orbitFrame->getAngularVelocity(tdb).cross(r);
    }

    return v;
}
Beispiel #3
0
static bool CreateTimeline(Body* body,
                           PlanetarySystem* system,
                           Universe& universe,
                           Hash* planetData,
                           const string& path,
                           Disposition disposition,
                           BodyType bodyType)
{
    FrameTree* parentFrameTree = NULL;
    Selection parentObject = GetParentObject(system);
    bool orbitsPlanet = false;
    if (parentObject.body())
    {
        parentFrameTree = parentObject.body()->getOrCreateFrameTree();
        orbitsPlanet = true;
    }
    else if (parentObject.star())
    {
        SolarSystem* solarSystem = universe.getSolarSystem(parentObject.star());
        if (solarSystem == NULL)
            solarSystem = universe.createSolarSystem(parentObject.star());
        parentFrameTree = solarSystem->getFrameTree();
    }
    else
    {
        // Bad orbit barycenter specified
        return false;
    }

    ReferenceFrame* defaultOrbitFrame = NULL;
    ReferenceFrame* defaultBodyFrame = NULL;
    if (bodyType == SurfaceObject)
    {
        defaultOrbitFrame = new BodyFixedFrame(parentObject, parentObject);
        defaultBodyFrame = CreateTopocentricFrame(parentObject, parentObject, Selection(body));
        defaultOrbitFrame->addRef();
        defaultBodyFrame->addRef();
    }
    else
    {
        defaultOrbitFrame = parentFrameTree->getDefaultReferenceFrame();
        defaultBodyFrame = parentFrameTree->getDefaultReferenceFrame();
    }
    
    // If there's an explicit timeline definition, parse that. Otherwise, we'll do
    // things the old way.
    Value* value = planetData->getValue("Timeline");
    if (value != NULL)
    {
        if (value->getType() != Value::ArrayType)
        {
            clog << "Error: Timeline must be an array\n";
            return false;
        }

        Timeline* timeline = CreateTimelineFromArray(body, universe, value->getArray(), path,
                                                     defaultOrbitFrame, defaultBodyFrame);
        if (timeline == NULL)
        {
            return false;
        }
        else
        {
            body->setTimeline(timeline);
            return true;
        }
    }

    // Information required for the object timeline.
    ReferenceFrame* orbitFrame   = NULL;
    ReferenceFrame* bodyFrame    = NULL;
    Orbit* orbit                 = NULL;
    RotationModel* rotationModel = NULL;
    double beginning             = -numeric_limits<double>::infinity();
    double ending                =  numeric_limits<double>::infinity();

    // If any new timeline values are specified, we need to overrideOldTimeline will
    // be set to true.
    bool overrideOldTimeline = false;

    // The interaction of Modify with timelines is slightly complicated. If the timeline
    // is specified by putting the OrbitFrame, Orbit, BodyFrame, or RotationModel directly
    // in the object definition (i.e. not inside a Timeline structure), it will completely
    // replace the previous timeline if it contained more than one phase. Otherwise, the
    // properties of the single phase will be modified individually, for compatibility with
    // Celestia versions 1.5.0 and earlier.
    if (disposition == ModifyObject)
    {
        const Timeline* timeline = body->getTimeline();
        if (timeline->phaseCount() == 1)
        {
            const TimelinePhase* phase = timeline->getPhase(0);
            orbitFrame    = phase->orbitFrame();
            bodyFrame     = phase->bodyFrame();
            orbit         = phase->orbit();
            rotationModel = phase->rotationModel();
            beginning     = phase->startTime();
            ending        = phase->endTime();
        }
    }

    // Get the object's orbit reference frame.
    bool newOrbitFrame = false;
    Value* frameValue = planetData->getValue("OrbitFrame");
    if (frameValue != NULL)
    {
        ReferenceFrame* frame = CreateReferenceFrame(universe, frameValue, parentObject, body);
        if (frame != NULL)
        {
            orbitFrame = frame;
            newOrbitFrame = true;
            overrideOldTimeline = true;
        }
    }

    // Get the object's body frame.
    bool newBodyFrame = false;
    Value* bodyFrameValue = planetData->getValue("BodyFrame");
    if (bodyFrameValue != NULL)
    {
        ReferenceFrame* frame = CreateReferenceFrame(universe, bodyFrameValue, parentObject, body);
        if (frame != NULL)
        {
            bodyFrame = frame;
            newBodyFrame = true;
            overrideOldTimeline = true;
        }
    }

    // If no orbit or body frame was specified, use the default ones
    if (orbitFrame == NULL)
        orbitFrame = defaultOrbitFrame;
    if (bodyFrame == NULL)
        bodyFrame = defaultBodyFrame;

    // If the center of the is a star, orbital element units are
    // in AU; otherwise, use kilometers.
    if (orbitFrame->getCenter().star() != NULL)
        orbitsPlanet = false;
    else
        orbitsPlanet = true;

    Orbit* newOrbit = CreateOrbit(orbitFrame->getCenter(), planetData, path, !orbitsPlanet);
    if (newOrbit == NULL && orbit == NULL)
    {
        if (body->getTimeline() && disposition == ModifyObject)
        {
            // The object definition is modifying an existing object with a multiple phase
            // timeline, but no orbit definition was given. This can happen for completely
            // sensible reasons, such a Modify definition that just changes visual properties.
            // Or, the definition may try to change other timeline phase properties such as
            // the orbit frame, but without providing an orbit. In both cases, we'll just
            // leave the original timeline alone.
            return true;
        }
        else
        {
            clog << "No valid orbit specified for object '" << body->getName() << "'. Skipping.\n";
            return false;
        }
    }

    // If a new orbit was given, override any old orbit
    if (newOrbit != NULL)
    {
        orbit = newOrbit;
        overrideOldTimeline = true;
    }

    // Get the rotation model for this body
    double syncRotationPeriod = orbit->getPeriod();
    RotationModel* newRotationModel = CreateRotationModel(planetData, path, syncRotationPeriod);

    // If a new rotation model was given, override the old one
    if (newRotationModel != NULL)
    {
        rotationModel = newRotationModel;
        overrideOldTimeline = true;
    }

    // If there was no rotation model specified, nor a previous rotation model to
    // override, create the default one.
    if (rotationModel == NULL)
    {
        // If no rotation model is provided, use a default rotation model--
        // a uniform rotation that's synchronous with the orbit (appropriate
        // for nearly all natural satellites in the solar system.)
        rotationModel = CreateDefaultRotationModel(syncRotationPeriod);
    }
    
    if (ParseDate(planetData, "Beginning", beginning))
        overrideOldTimeline = true;
    if (ParseDate(planetData, "Ending", ending))
        overrideOldTimeline = true;

    // Something went wrong if the disposition isn't modify and no timeline
    // is to be created.
    assert(disposition == ModifyObject || overrideOldTimeline);

    if (overrideOldTimeline)
    {
        if (beginning >= ending)
        {
            clog << "Beginning time must be before Ending time.\n";
            return false;
        }

        // We finally have an orbit, rotation model, frames, and time range. Create
        // the object timeline.
        TimelinePhase* phase = TimelinePhase::CreateTimelinePhase(universe,
                                                                  body,
                                                                  beginning, ending,
                                                                  *orbitFrame,
                                                                  *orbit,
                                                                  *bodyFrame,
                                                                  *rotationModel);

        // We've already checked that beginning < ending; nothing else should go
        // wrong during the creation of a TimelinePhase.
        assert(phase != NULL);
        if (phase == NULL)
        {
            clog << "Internal error creating TimelinePhase.\n";
            return false;
        }

        Timeline* timeline = new Timeline();
        timeline->appendPhase(phase);

        body->setTimeline(timeline);

        // Check for circular references in frames; this can only be done once the timeline
        // has actually been set.
        // TIMELINE-TODO: This check is not comprehensive; it won't find recursion in
        // multiphase timelines.
        if (newOrbitFrame && isFrameCircular(*body->getOrbitFrame(0.0), ReferenceFrame::PositionFrame))
        {
            clog << "Orbit frame for " << body->getName() << " is nested too deep (probably circular)\n";
            return false;
        }

        if (newBodyFrame && isFrameCircular(*body->getBodyFrame(0.0), ReferenceFrame::OrientationFrame))
        {
            clog << "Body frame for " << body->getName() << " is nested too deep (probably circular)\n";
            return false;
        }
    }

    return true;
}
Beispiel #4
0
TimelinePhase* CreateTimelinePhase(Body* body,
                                   Universe& universe,
                                   Hash* phaseData,
                                   const string& path,
                                   ReferenceFrame* defaultOrbitFrame,
                                   ReferenceFrame* defaultBodyFrame,
                                   bool isFirstPhase,
                                   bool isLastPhase,
                                   double previousPhaseEnd)
{
    double beginning = previousPhaseEnd;
    double ending = numeric_limits<double>::infinity();

    // Beginning is optional for the first phase of a timeline, and not
    // allowed for the other phases, where beginning is always the ending
    // of the previous phase.
    bool hasBeginning = ParseDate(phaseData, "Beginning", beginning);
    if (!isFirstPhase && hasBeginning)
    {
        clog << "Error: Beginning can only be specified for initial phase of timeline.\n";
        return NULL;
    }

    // Ending is required for all phases except for the final one.
    bool hasEnding = ParseDate(phaseData, "Ending", ending);
    if (!isLastPhase && !hasEnding)
    {
        clog << "Error: Ending is required for all timeline phases other than the final one.\n";
        return NULL;
    }

    // Get the orbit reference frame.
    ReferenceFrame* orbitFrame;
    Value* frameValue = phaseData->getValue("OrbitFrame");
    if (frameValue != NULL)
    {
        orbitFrame = CreateReferenceFrame(universe, frameValue, defaultOrbitFrame->getCenter(), body);
        if (orbitFrame == NULL)
        {
            return NULL;
        }
    }
    else
    {
        // No orbit frame specified; use the default frame.
        orbitFrame = defaultOrbitFrame;
    }
    orbitFrame->addRef();

    // Get the body reference frame
    ReferenceFrame* bodyFrame;
    Value* bodyFrameValue = phaseData->getValue("BodyFrame");
    if (bodyFrameValue != NULL)
    {
        bodyFrame = CreateReferenceFrame(universe, bodyFrameValue, defaultBodyFrame->getCenter(), body);
        if (bodyFrame == NULL)
        {
            orbitFrame->release();
            return NULL;
        }
    }
    else
    {
        // No body frame specified; use the default frame.
        bodyFrame = defaultBodyFrame;
    }
    bodyFrame->addRef();

    // Use planet units (AU for semimajor axis) if the center of the orbit 
    // reference frame is a star.
    bool usePlanetUnits = orbitFrame->getCenter().star() != NULL;

    // Get the orbit
    Orbit* orbit = CreateOrbit(orbitFrame->getCenter(), phaseData, path, usePlanetUnits);
    if (!orbit)
    {
        clog << "Error: missing orbit in timeline phase.\n";
        bodyFrame->release();
        orbitFrame->release();
        return NULL;
    }

    // Get the rotation model
    // TIMELINE-TODO: default rotation model is UniformRotation with a period
    // equal to the orbital period. Should we do something else?
    RotationModel* rotationModel = CreateRotationModel(phaseData, path, orbit->getPeriod());
    if (!rotationModel)
    {
        // TODO: Should distinguish between a missing rotation model (where it's
        // appropriate to use a default one) and a bad rotation model (where
        // we should report an error.)
        rotationModel = new ConstantOrientation(Quaterniond::Identity());
    }

    TimelinePhase* phase = TimelinePhase::CreateTimelinePhase(universe,
                                                              body,
                                                              beginning, ending,
                                                              *orbitFrame,
                                                              *orbit,
                                                              *bodyFrame,
                                                              *rotationModel);

    // Frame ownership transfered to phase; release local references
    orbitFrame->release();
    bodyFrame->release();

    return phase;
}