void Nebula::drawLabel(StelPainter& sPainter, float maxMagLabel) { float lim = mag; if (lim > 50) lim = 15.f; // temporary workaround of this bug: https://bugs.launchpad.net/stellarium/+bug/1115035 --AW if (getEnglishName().contains("Pleiades")) lim = 5.f; if (lim>maxMagLabel) return; Vec3f col(labelColor[0], labelColor[1], labelColor[2]); sPainter.setColor(col[0], col[1], col[2], hintsBrightness); float size = getAngularSize(NULL)*M_PI/180.*sPainter.getProjector()->getPixelPerRadAtCenter(); float shift = 4.f + size/1.8f; QString str; if (!nameI18.isEmpty()) str = getNameI18n(); else { if (M_nb > 0) str = QString("M %1").arg(M_nb); else if (C_nb > 0) str = QString("C %1").arg(C_nb); else if (NGC_nb > 0) str = QString("NGC %1").arg(NGC_nb); else if (IC_nb > 0) str = QString("IC %1").arg(IC_nb); } sPainter.drawText(XY[0]+shift, XY[1]+shift, str, 0, 0, 0, false); }
void Exoplanet::draw(StelCore* core, StelPainter *painter) { bool visible; StelSkyDrawer* sd = core->getSkyDrawer(); StarMgr* smgr = GETSTELMODULE(StarMgr); // It's need for checking displaying of labels for stars Vec3f color = exoplanetMarkerColor; if (hasHabitableExoplanets) color = habitableExoplanetMarkerColor; StelUtils::spheToRect(RA, DE, XYZ); double mag = getVMagnitudeWithExtinction(core); painter->setBlending(true, GL_ONE, GL_ONE); painter->setColor(color[0], color[1], color[2], 1); if (timelineMode) { visible = isDiscovered(core); } else { visible = true; } if (habitableMode) { if (!hasHabitableExoplanets) return; } Vec3d win; // Check visibility of exoplanet system if(!visible || !(painter->getProjector()->projectCheck(XYZ, win))) {return;} float mlimit = sd->getLimitMagnitude(); if (mag <= mlimit) { Exoplanet::markerTexture->bind(); float size = getAngularSize(Q_NULLPTR)*M_PI/180.*painter->getProjector()->getPixelPerRadAtCenter(); float shift = 5.f + size/1.6f; painter->drawSprite2dMode(XYZ, distributionMode ? 4.f : 5.f); float coeff = 4.5f + std::log10(sradius + 0.1f); if (labelsFader.getInterstate()<=0.f && !distributionMode && (mag+coeff)<mlimit && smgr->getFlagLabels() && showDesignations) { painter->drawText(XYZ, getNameI18n(), 0, shift, shift, false); } } }
void Nebula::drawName(const Projector* prj) { if (m_hidden || !m_selected) return; glColor4f(labelColor[0], labelColor[1], labelColor[2], hintsBrightness); float size = get_on_screen_size(prj); float shift = 8.f + size/2.f; string nebulaname = getNameI18n(); if (prj->getFlagGravityLabels()) prj->print_gravity180(nebulaFont, XY[0], XY[1], nebulaname, 1, shift, shift); else nebulaFont->print(XY[0]+shift, XY[1]+shift,nebulaname,1,1); // draw image credit, if it fits easily if (credit != "" && size > nebulaFont->getStrLen(credit, 1)) { if (prj->getFlagGravityLabels()) prj->print_gravity180(nebulaFont, XY[0]-shift-40, XY[1]+-shift-40, credit, 1, 0, 0); else nebulaFont->print(XY[0]-shift, XY[1]-shift-60, credit, 1, 1); } }
QString MinorPlanet::getInfoString(const StelCore *core, const InfoStringGroup &flags) const { //Mostly copied from Planet::getInfoString(): QString str; QTextStream oss(&str); double az_app, alt_app; StelUtils::rectToSphe(&az_app,&alt_app,getAltAzPosApparent(core)); Q_UNUSED(az_app); if (flags&Name) { oss << "<h2>"; if (minorPlanetNumber) oss << QString("(%1) ").arg(minorPlanetNumber); if (nameIsProvisionalDesignation) oss << provisionalDesignationHtml; else oss << getNameI18n(); // UI translation can differ from sky translation oss.setRealNumberNotation(QTextStream::FixedNotation); oss.setRealNumberPrecision(1); if (sphereScale != 1.f) oss << QString::fromUtf8(" (\xC3\x97") << sphereScale << ")"; oss << "</h2>"; if (!nameIsProvisionalDesignation && !provisionalDesignationHtml.isEmpty()) { oss << QString(q_("Provisional designation: %1")).arg(provisionalDesignationHtml); oss << "<br>"; } } if (flags&ObjectType && getPlanetType()!=isUNDEFINED) { oss << q_("Type: <b>%1</b>").arg(q_(getPlanetTypeString())) << "<br />"; } if (flags&Magnitude) { if (core->getSkyDrawer()->getFlagHasAtmosphere() && (alt_app>-3.0*M_PI/180.0)) // Don't show extincted magnitude much below horizon where model is meaningless. oss << q_("Magnitude: <b>%1</b> (extincted to: <b>%2</b>)").arg(QString::number(getVMagnitude(core), 'f', 2), QString::number(getVMagnitudeWithExtinction(core), 'f', 2)) << "<br>"; else oss << q_("Magnitude: <b>%1</b>").arg(getVMagnitude(core), 0, 'f', 2) << "<br>"; } if (flags&AbsoluteMagnitude) { //TODO: Make sure absolute magnitude is a sane value //If the H-G system is not used, use the default radius/albedo mechanism if (slopeParameter < 0) { oss << q_("Absolute Magnitude: %1").arg(getVMagnitude(core) - 5. * (std::log10(getJ2000EquatorialPos(core).length()*AU/PARSEC)-1.), 0, 'f', 2) << "<br>"; } else { oss << q_("Absolute Magnitude: %1").arg(absoluteMagnitude, 0, 'f', 2) << "<br>"; } } oss << getPositionInfoString(core, flags); if (flags&Distance) { double distanceAu = getJ2000EquatorialPos(core).length(); double distanceKm = AU * distanceAu; if (distanceAu < 0.1) { // xgettext:no-c-format oss << QString(q_("Distance: %1AU (%2 km)")) .arg(distanceAu, 0, 'f', 6) .arg(distanceKm, 0, 'f', 3); } else { // xgettext:no-c-format oss << QString(q_("Distance: %1AU (%2 Mio km)")) .arg(distanceAu, 0, 'f', 3) .arg(distanceKm / 1.0e6, 0, 'f', 3); } oss << "<br>"; } float aSize = 2.*getAngularSize(core)*M_PI/180.; if (flags&Size && aSize>1e-6) oss << q_("Apparent diameter: %1").arg(StelUtils::radToDmsStr(aSize, true)) << "<br>"; // If semi-major axis not zero then calculate and display orbital period for asteroid in days double siderealPeriod = getSiderealPeriod(); if ((flags&Extra) && (siderealPeriod>0)) { // TRANSLATORS: Sidereal (orbital) period for solar system bodies in days and in Julian years (symbol: a) oss << q_("Sidereal period: %1 days (%2 a)").arg(QString::number(siderealPeriod, 'f', 2)).arg(QString::number(siderealPeriod/365.25, 'f', 3)) << "<br>"; } postProcessInfoString(str, flags); return str; }
QString Exoplanet::getInfoString(const StelCore* core, const InfoStringGroup& flags) const { QString str; QTextStream oss(&str); const StelTranslator& trans = StelApp::getInstance().getLocaleMgr().getSkyTranslator(); if (flags&Name) { QString systemName = getNameI18n(); if (!starProperName.isEmpty()) systemName.append(QString(" (%1)").arg(designation)); oss << "<h2>" << systemName << "</h2>"; } if (flags&ObjectType) { oss << QString("%1: <b>%2</b>").arg(q_("Type"), q_("planetary system")) << "<br />"; } if (flags&Magnitude && Vmag<99 && !distributionMode) { double az_app, alt_app; StelUtils::rectToSphe(&az_app,&alt_app,getAltAzPosApparent(core)); Q_UNUSED(az_app); oss << getMagnitudeInfoString(core, flags, alt_app, 2); } // Ra/Dec etc. oss << getCommonInfoString(core, flags); if (flags&Extra && !stype.isEmpty()) oss << QString("%1: <b>%2</b>").arg(q_("Spectral Type"), stype) << "<br />"; if (flags&Distance && distance>0) { //TRANSLATORS: Unit of measure for distance - Light Years QString ly = qc_("ly", "distance"); oss << QString("%1: %2 %3").arg(q_("Distance"), QString::number(distance/0.306601, 'f', 2), ly) << "<br />"; } if (flags&Extra) { if (smetal!=0) { oss << QString("%1 [Fe/H]: %2").arg(q_("Metallicity"), QString::number(smetal, 'f', 3)) << "<br />"; } if (smass>0) { oss << QString("%1: %2 M<sub>%3</sub>").arg(q_("Mass"), QString::number(smass, 'f', 3), q_("Sun")) << "<br />"; } if (sradius>0) { oss << QString("%1: %2 R<sub>%3</sub>").arg(q_("Radius"), QString::number(sradius, 'f', 5), q_("Sun")) << "<br />"; } if (effectiveTemp>0) { oss << QString("%1: %2 %3").arg(q_("Effective temperature")).arg(effectiveTemp).arg(qc_("K", "temperature")) << "<br />"; } if (exoplanets.size() > 0) { QString qss = "padding: 0 2px 0 0;"; QString planetNameLabel = QString("<td style=\"%2\">%1</td>").arg(q_("Exoplanet")).arg(qss); QString planetProperNameLabel = QString("<td style=\"%2\">%1</td>").arg(q_("Name")).arg(qss); QString periodLabel = QString("<td style=\"%3\">%1 (%2)</td>").arg(q_("Period")).arg(qc_("days", "period")).arg(qss); QString massLabel = QString("<td style=\"%3\">%1 (M<sub>%2</sub>)</td>").arg(q_("Mass")).arg(q_("Jup")).arg(qss); QString radiusLabel = QString("<td style=\"%3\">%1 (R<sub>%2</sub>)</td>").arg(q_("Radius")).arg(q_("Jup")).arg(qss); QString semiAxisLabel = QString("<td style=\"%3\">%1 (%2)</td>").arg(q_("Semi-Major Axis")).arg(qc_("AU", "distance, astronomical unit")).arg(qss); QString eccentricityLabel = QString("<td style=\"%2\">%1</td>").arg(q_("Eccentricity")).arg(qss); QString inclinationLabel = QString("<td style=\"%3\">%1 (%2)</td>").arg(q_("Inclination")).arg(QChar(0x00B0)).arg(qss); QString angleDistanceLabel = QString("<td style=\"%2\">%1 (\")</td>").arg(q_("Angle Distance")).arg(qss); QString discoveredLabel = QString("<td style=\"%2\">%1</td>").arg(q_("Discovered year")).arg(qss); QString detectionMethodLabel = QString("<td style=\"%2\">%1</td>").arg(q_("Detection method")).arg(qss); QString pClassLabel = QString("<td style=\"%2\">%1</td>").arg(q_("Planetary class")).arg(qss); //TRANSLATORS: Full phrase is "Equilibrium Temperature" QString equilibriumTempLabel = QString("<td style=\"%3\">%1 (%2)</td>").arg(q_("Equilibrium temp.")).arg(getTemperatureScaleUnit()).arg(qss); //TRANSLATORS: Average stellar flux of the planet QString fluxLabel = QString("<td style=\"%2\">%1 (S<sub>E</sub>)</td>").arg(q_("Flux")).arg(qss); //TRANSLATORS: ESI = Earth Similarity Index QString ESILabel = QString("<td style=\"%2\">%1</td>").arg(q_("ESI")).arg(qss); QString row = "<td style=\"padding:0 2px;\">%1</td>"; QString emRow = "<td style=\"padding:0 2px;\"><em>%1</em></td>"; QString emptyRow = "<td style=\"padding:0 2px;\">—</td>"; for (const auto& p : exoplanets) { if (!p.planetName.isEmpty()) planetNameLabel.append(row.arg(p.planetName)); else planetNameLabel.append(emptyRow); if (!p.planetProperName.isEmpty()) planetProperNameLabel.append(row.arg(trans.qtranslate(p.planetProperName))); else planetProperNameLabel.append(emptyRow); if (p.period > -1.f) periodLabel.append(row.arg(QString::number(p.period, 'f', 2))); else periodLabel.append(emptyRow); if (p.mass > -1.f) massLabel.append(row.arg(QString::number(p.mass, 'f', 2))); else massLabel.append(emptyRow); if (p.radius > -1.f) radiusLabel.append(row.arg(QString::number(p.radius, 'f', 1))); else radiusLabel.append(emptyRow); if (p.eccentricity > -1.f) eccentricityLabel.append(row.arg(QString::number(p.eccentricity, 'f', 3))); else eccentricityLabel.append(emptyRow); if (p.inclination > -1.f) inclinationLabel.append(row.arg(QString::number(p.inclination, 'f', 1))); else inclinationLabel.append(emptyRow); if (p.semiAxis > -1.f) semiAxisLabel.append(row.arg(QString::number(p.semiAxis, 'f', 4))); else semiAxisLabel.append(emptyRow); if (p.angleDistance > -1.f) angleDistanceLabel.append(row.arg(QString::number(p.angleDistance, 'f', 6))); else angleDistanceLabel.append(emptyRow); if (p.discovered > 0) discoveredLabel.append(row.arg(QString::number(p.discovered))); else discoveredLabel.append(emptyRow); if (!p.pclass.isEmpty()) { if (!p.conservative) pClassLabel.append(emRow.arg(getPlanetaryClassI18n(p.pclass))); else pClassLabel.append(row.arg(getPlanetaryClassI18n(p.pclass))); } else pClassLabel.append(emptyRow); if (p.EqTemp > 0) { if (!p.conservative) equilibriumTempLabel.append(emRow.arg(QString::number(getTemperature(p.EqTemp), 'f', 2))); else equilibriumTempLabel.append(row.arg(QString::number(getTemperature(p.EqTemp), 'f', 2))); } else equilibriumTempLabel.append(emptyRow); if (p.flux > 0) { if (!p.conservative) fluxLabel.append(emRow.arg(QString::number(p.flux * 0.01, 'f', 2))); else fluxLabel.append(row.arg(QString::number(p.flux * 0.01, 'f', 2))); } else fluxLabel.append(emptyRow); if (p.ESI > 0) { if (!p.conservative) ESILabel.append(emRow.arg(QString::number(p.ESI * 0.01, 'f', 2))); else ESILabel.append(row.arg(QString::number(p.ESI * 0.01, 'f', 2))); } else ESILabel.append(emptyRow); if (p.detectionMethod.isEmpty()) detectionMethodLabel.append(emptyRow); else detectionMethodLabel.append(row.arg(q_(p.detectionMethod))); } oss << "<table style='margin-left: -2px;'>"; // Cosmetic fix oss << "<tr>" << planetNameLabel << "</tr>"; oss << "<tr>" << planetProperNameLabel << "</tr>"; oss << "<tr>" << periodLabel << "</tr>"; oss << "<tr>" << massLabel << "</tr>"; oss << "<tr>" << radiusLabel << "</tr>"; oss << "<tr>" << semiAxisLabel << "</tr>"; oss << "<tr>" << eccentricityLabel << "</tr>"; oss << "<tr>" << inclinationLabel << "</tr>"; oss << "<tr>" << angleDistanceLabel << "</tr>"; oss << "<tr>" << discoveredLabel << "</tr>"; oss << "<tr>" << detectionMethodLabel << "</tr>"; if (hasHabitableExoplanets) { oss << "<tr>" << pClassLabel << "</tr>"; oss << "<tr>" << equilibriumTempLabel << "</tr>"; oss << "<tr>" << fluxLabel << "</tr>"; oss << "<tr>" << ESILabel << "</tr>"; } oss << "</table>"; if (hasHabitableExoplanets) oss << QString("%1: %2%3").arg(q_("Equilibrium temperature on Earth")).arg(QString::number(getTemperature(255), 'f', 2)).arg(getTemperatureScaleUnit()) << "<br />"; } } postProcessInfoString(str, flags); return str; }
QString Nebula::getInfoString(const StelCore *core, const InfoStringGroup& flags) const { QString str; QTextStream oss(&str); if ((flags&Name) || (flags&CatalogNumber)) oss << "<h2>"; if (nameI18!="" && flags&Name) { oss << getNameI18n(); } if (flags&CatalogNumber) { if (nameI18!="" && flags&Name) oss << " ("; QStringList catIds; if ((M_nb > 0) && (M_nb < 111)) catIds << QString("M %1").arg(M_nb); if ((C_nb > 0) && (C_nb < 110)) catIds << QString("C %1").arg(C_nb); if (NGC_nb > 0) catIds << QString("NGC %1").arg(NGC_nb); if (IC_nb > 0) catIds << QString("IC %1").arg(IC_nb); if ((B_nb > 0) && (B_nb <= 370)) catIds << QString("B %1").arg(B_nb); if ((Sh2_nb > 0) && (Sh2_nb <= 313)) catIds << QString("Sh 2-%1").arg(Sh2_nb); if ((VdB_nb > 0) && (VdB_nb <= 158)) catIds << QString("VdB %1").arg(VdB_nb); if ((RCW_nb > 0) && (RCW_nb <= 182)) catIds << QString("RCW %1").arg(RCW_nb); if ((LDN_nb > 0) && (LDN_nb <= 1802)) catIds << QString("LDN %1").arg(LDN_nb); if ((LBN_nb > 0) && (LBN_nb <= 1125)) catIds << QString("LBN %1").arg(LBN_nb); if ((Cr_nb > 0) && (Cr_nb <= 471)) catIds << QString("Cr %1").arg(Cr_nb); if ((Mel_nb > 0) && (Mel_nb <= 245)) catIds << QString("Mel %1").arg(Mel_nb); oss << catIds.join(" - "); if (nameI18!="" && flags&Name) oss << ")"; } if ((flags&Name) || (flags&CatalogNumber)) oss << "</h2>"; if (flags&ObjectType) oss << q_("Type: <b>%1</b>").arg(getTypeString()) << "<br>"; if (mag < 50 && flags&Magnitude) { if (nType == NebDn) { oss << q_("Opacity: <b>%1</b>").arg(getVMagnitude(core), 0, 'f', 2) << "<br>"; } else { if (core->getSkyDrawer()->getFlagHasAtmosphere()) oss << q_("Magnitude: <b>%1</b> (extincted to: <b>%2</b>)").arg(QString::number(getVMagnitude(core), 'f', 2), QString::number(getVMagnitudeWithExtinction(core), 'f', 2)) << "<br>"; else oss << q_("Magnitude: <b>%1</b>").arg(getVMagnitude(core), 0, 'f', 2) << "<br>"; } } if (nType != NebDn && mag < 50 && flags&Extra) { if (core->getSkyDrawer()->getFlagHasAtmosphere()) { if (getSurfaceBrightness(core)<99 && getSurfaceBrightnessWithExtinction(core)<99) oss << q_("Surface brightness: <b>%1</b> (extincted to: <b>%2</b>)").arg(QString::number(getSurfaceBrightness(core), 'f', 2), QString::number(getSurfaceBrightnessWithExtinction(core), 'f', 2)) << "<br>"; } else { if (getSurfaceBrightness(core)<99) oss << q_("Surface brightness: <b>%1</b>").arg(QString::number(getSurfaceBrightness(core), 'f', 2)) << "<br>"; } } if (flags&Extra) { if (nType==NebHII) { if (LBN_nb!=0) oss << q_("Brightness: %1").arg(brightnessClass) << "<br>"; else { oss << qc_("Form: %1","HII Region").arg(getHIIFormTypeString()) << "<br>"; oss << qc_("Structure: %1","HII Region").arg(getHIIStructureTypeString()) << "<br>"; oss << q_("Brightness: %1").arg(getHIIBrightnessTypeString()) << "<br>"; } } if (nType==NebHa) { oss << q_("Brightness: %1").arg(getHaBrightnessTypeString()) << "<br>"; } } oss << getPositionInfoString(core, flags); if (angularSize>0 && flags&Size) oss << q_("Size: %1").arg(StelUtils::radToDmsStr(angularSize*M_PI/180.)) << "<br>"; postProcessInfoString(str, flags); return str; }
void Nebula::drawLabel(StelPainter& sPainter, float maxMagLabel) { float lim = mag; if (lim > 50) lim = 15.f; // temporary workaround of this bug: https://bugs.launchpad.net/stellarium/+bug/1115035 --AW if (getEnglishName().contains("Pleiades")) lim = 5.f; // Dark nebulae. Not sure how to assess visibility from opacity? --GZ if (nType==NebDn) { // GZ: ad-hoc visibility formula: assuming good visibility if objects of mag9 are visible, "usual" opacity 5 and size 30', better visibility (discernability) comes with higher opacity and larger size, // 9-(opac-5)-2*(angularSize-0.5) if (angularSize>0 && mag<50) lim = 15.0f - mag - 2.0f*angularSize; else lim = 9.0f; } else if (nType==NebHII || nType==NebHa) lim=9.0f; if (lim>maxMagLabel) return; Vec3d win; // Check visibility of DSO labels if (!(sPainter.getProjector()->projectCheck(XYZ, win))) return; Vec3f col(labelColor[0], labelColor[1], labelColor[2]); sPainter.setColor(col[0], col[1], col[2], hintsBrightness); float size = getAngularSize(NULL)*M_PI/180.*sPainter.getProjector()->getPixelPerRadAtCenter(); float shift = 4.f + (drawHintProportional ? size : size/1.8f); QString str; if (!nameI18.isEmpty()) str = getNameI18n(); else { // On screen label: one only, priority as given here. NGC should win over Sharpless. (GZ) if (M_nb > 0) str = QString("M %1").arg(M_nb); else if (C_nb > 0) str = QString("C %1").arg(C_nb); else if (NGC_nb > 0) str = QString("NGC %1").arg(NGC_nb); else if (IC_nb > 0) str = QString("IC %1").arg(IC_nb); else if (B_nb > 0) str = QString("B %1").arg(B_nb); else if (Sh2_nb > 0) str = QString("Sh 2-%1").arg(Sh2_nb); else if (VdB_nb > 0) str = QString("VdB %1").arg(VdB_nb); else if (RCW_nb > 0) str = QString("RCW %1").arg(RCW_nb); else if (LDN_nb > 0) str = QString("LDN %1").arg(LDN_nb); else if (LBN_nb > 0) str = QString("LBN %1").arg(LBN_nb); else if (Cr_nb > 0) str = QString("Cr %1").arg(Cr_nb); else if (Mel_nb > 0) str = QString("Mel %1").arg(Mel_nb); } sPainter.drawText(XY[0]+shift, XY[1]+shift, str, 0, 0, 0, false); }
QString Nebula::getInfoString(const StelCore *core, const InfoStringGroup& flags) const { QString str; QTextStream oss(&str); if ((flags&Name) || (flags&CatalogNumber)) oss << "<h2>"; if (nameI18!="" && flags&Name) { oss << getNameI18n(); } if (flags&CatalogNumber) { if (nameI18!="" && flags&Name) oss << " ("; QStringList catIds; if ((M_nb > 0) && (M_nb < 111)) catIds << QString("M %1").arg(M_nb); if (NGC_nb > 0) catIds << QString("NGC %1").arg(NGC_nb); if (IC_nb > 0) catIds << QString("IC %1").arg(IC_nb); if ((C_nb > 0) && (C_nb < 110)) catIds << QString("C %1").arg(C_nb); oss << catIds.join(" - "); if (nameI18!="" && flags&Name) oss << ")"; } if ((flags&Name) || (flags&CatalogNumber)) oss << "</h2>"; if (flags&ObjectType) oss << q_("Type: <b>%1</b>").arg(getTypeString()) << "<br>"; if (mag < 50 && flags&Magnitude) { if (core->getSkyDrawer()->getFlagHasAtmosphere()) { oss << q_("Magnitude: <b>%1</b> (extincted to: <b>%2</b>)").arg(QString::number(getVMagnitude(core), 'f', 2), QString::number(getVMagnitudeWithExtinction(core), 'f', 2)) << "<br>"; if (getSurfaceBrightness(core)<99 && getSurfaceBrightnessWithExtinction(core)<99) oss << q_("Surface brightness: <b>%1</b> (extincted to: <b>%2</b>)").arg(QString::number(getSurfaceBrightness(core), 'f', 2), QString::number(getSurfaceBrightnessWithExtinction(core), 'f', 2)) << "<br>"; } else { oss << q_("Magnitude: <b>%1</b>").arg(getVMagnitude(core), 0, 'f', 2) << "<br>"; if (getSurfaceBrightness(core)<99) oss << q_("Surface brightness: <b>%1</b>").arg(QString::number(getSurfaceBrightness(core), 'f', 2)) << "<br>"; } } oss << getPositionInfoString(core, flags); if (angularSize>0 && flags&Size) oss << q_("Size: %1").arg(StelUtils::radToDmsStr(angularSize*M_PI/180.)) << "<br>"; postProcessInfoString(str, flags); return str; }
QString Nova::getInfoString(const StelCore* core, const InfoStringGroup& flags) const { QString str; QTextStream oss(&str); if (flags&Name) { QString name = novaName.isEmpty() ? QString("<h2>%1</h2>").arg(designation) : QString("<h2>%1 (%2)</h2>").arg(getNameI18n()).arg(designation); oss << name; } if (flags&ObjectType) oss << QString("%1: <b>%2</b> (%3)").arg(q_("Type"), q_("nova"), novaType) << "<br />"; if (flags&Magnitude) { double az_app, alt_app; StelUtils::rectToSphe(&az_app,&alt_app,getAltAzPosApparent(core)); Q_UNUSED(az_app); oss << getMagnitudeInfoString(core, flags, alt_app, 2); } // Ra/Dec etc. oss << getCommonInfoString(core, flags); if (flags&Extra) { oss << QString("%1: %2").arg(q_("Maximum brightness"), getMaxBrightnessDate(peakJD)) << "<br />"; if (distance>0) { //TRANSLATORS: Unit of measure for distance - Light Years QString ly = qc_("ly", "distance"); oss << QString("%1: %2 %3").arg(q_("Distance"), QString::number(distance*1000, 'f', 2), ly) << "<br />"; } } postProcessInfoString(str, flags); return str; }
// StelObject method to override //! Get a string with data about the Constellation. //! Constellations support the following InfoStringGroup flags: //! - Name //! @param core the Stelore object //! @param flags a set of InfoStringGroup items to include in the return value. //! @return a QString a description of the Planet. virtual QString getInfoString(const StelCore*, const InfoStringGroup& flags) const { if (flags&Name) return getNameI18n() + "(" + getShortName() + ")"; else return ""; }