Fix exceptions and errors in analyzing code
This commit is contained in:
+123
-115
@@ -384,135 +384,143 @@ bool loadXISF(const QString &path, ImageInfoData &info, RawImage **image)
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void LoadRunable::run()
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{
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if(!m_thumbnail && !m_receiver->isCurrent())
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try
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{
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return;
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}
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QElapsedTimer timer;
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ImageInfoData info;
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QFileInfo finfo(m_file);
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info.info.append({QObject::tr("Filename"), finfo.fileName()});
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RawImage *rawImage = nullptr;
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bool raw = false;
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timer.start();
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if(m_file.endsWith(".CR2", Qt::CaseInsensitive) || m_file.endsWith(".NEF", Qt::CaseInsensitive) || m_file.endsWith(".DNG", Qt::CaseInsensitive))
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{
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loadRAW(m_file, info, &rawImage);
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raw = true;
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qDebug() << "LoadRAW" << timer.elapsed();
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}
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else if(m_file.endsWith(".FIT", Qt::CaseInsensitive) || m_file.endsWith(".FITS", Qt::CaseInsensitive))
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{
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loadFITS(m_file, info, &rawImage);
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qDebug() << "LoadFITS" << timer.elapsed();
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}
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else if(m_file.endsWith(".XISF", Qt::CaseInsensitive))
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{
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loadXISF(m_file, info, &rawImage);
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qDebug() << "LoadXISF" << timer.elapsed();
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}
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else
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{
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QImage img(m_file);
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#ifdef COLOR_MANAGMENT
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if(img.colorSpace().isValid() && img.colorSpace() != QColorSpace::SRgb)
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img.convertToColorSpace(QColorSpace::SRgb);
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#endif
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ExifData *exif = exif_data_new_from_file(m_file.toLocal8Bit().constData());
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info.info.append({QObject::tr("Width"), QString::number(img.width())});
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info.info.append({QObject::tr("Height"), QString::number(img.height())});
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if(exif)
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if(!m_thumbnail && !m_receiver->isCurrent())
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{
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loadExifEntry(info, exif->ifd[EXIF_IFD_EXIF], EXIF_TAG_ISO_SPEED_RATINGS);
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loadExifEntry(info, exif->ifd[EXIF_IFD_EXIF], EXIF_TAG_SHUTTER_SPEED_VALUE);
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exif_data_free(exif);
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return;
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}
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rawImage = new RawImage(img);
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}
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QElapsedTimer timer;
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ImageInfoData info;
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QFileInfo finfo(m_file);
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info.info.append({QObject::tr("Filename"), finfo.fileName()});
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if(rawImage && m_analyzeLevel >= Statistics && !m_thumbnail)
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{
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double mean, median, min, max, mad;
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double stdDev;
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uint32_t saturated;
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RawImage *rawImage = nullptr;
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bool raw = false;
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timer.start();
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rawImage->imageStats(&mean, &stdDev, &median, &min, &max, &mad, &saturated);
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qDebug() << "image stats" << timer.restart();
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info.info.append({QObject::tr("Mean"), QString::number(mean)});
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info.info.append({QObject::tr("Standart deviation"), QString::number(stdDev)});
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info.info.append({QObject::tr("Median"), QString::number(median)});
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info.info.append({QObject::tr("Minimum"), QString::number(min)});
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info.info.append({QObject::tr("Maximum"), QString::number(max)});
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info.info.append({QObject::tr("MAD"), QString::number(mad)});
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info.info.append({QObject::tr("Saturated"), QString::number(100.0 * saturated / rawImage->size()) + "%"});
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if(m_analyzeLevel >= Peaks)
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if(m_file.endsWith(".CR2", Qt::CaseInsensitive) || m_file.endsWith(".NEF", Qt::CaseInsensitive) || m_file.endsWith(".DNG", Qt::CaseInsensitive))
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{
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std::vector<Peak> peaks;
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if(raw) {
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rawImage->quarter();
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qDebug() << "quarter" << timer.restart();
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}
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RawImage *medianImage = rawImage->medianFilter();
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qDebug() << "median" << timer.restart();
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int numPeaks = medianImage->findPeaks(median+stdDev*2, 20, peaks);
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delete medianImage;
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qDebug() << "peaks" << timer.restart();
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//if(m_analyzeLevel == Peaks)
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// drawPeaks(img, peaks);
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qDebug() << "draw peaks" << timer.restart();
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info.info.append({QObject::tr("Peaks"), QString::number(numPeaks)});
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//info.info.append({QObject::tr("Peaks draw"), QString::number(peaks.size())});
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if(m_analyzeLevel>= Stars)
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{
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double fwhmX = 0;
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double fwhmY = 0;
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const int radius = 13;
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StarFit starFit(radius);
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std::vector<Star> stars;
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for(uint i=0; i<peaks.size(); i++)
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{
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Peak p = peaks[i];
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std::vector<double> r;
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int x = p.x();
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int y = p.y();
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rawImage->rect(x, y, radius, radius, r);
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Star star = starFit.fitStar(r, false);
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if(star.valid())
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{
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//printStarModel(radius, r, star);
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star.m_x += x;
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star.m_y += y;
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fwhmX += star.fwhmX();
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fwhmY += star.fwhmY();
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stars.push_back(star);
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}
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}
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//drawStars(img, stars);
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info.info.append({QObject::tr("FWHM X"), QString::number(fwhmX/stars.size())});
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info.info.append({QObject::tr("FWHM Y"), QString::number(fwhmY/stars.size())});
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}
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qDebug() << "Star fit" << timer.restart();
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loadRAW(m_file, info, &rawImage);
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raw = true;
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qDebug() << "LoadRAW" << timer.elapsed();
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}
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}
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if(m_thumbnail)
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{
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if(rawImage)
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else if(m_file.endsWith(".FIT", Qt::CaseInsensitive) || m_file.endsWith(".FITS", Qt::CaseInsensitive))
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{
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rawImage->convertToThumbnail();
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QMetaObject::invokeMethod(m_receiver, "thumbnailLoadFinish", Qt::QueuedConnection, Q_ARG(void*, rawImage));
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loadFITS(m_file, info, &rawImage);
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qDebug() << "LoadFITS" << timer.elapsed();
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}
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else if(m_file.endsWith(".XISF", Qt::CaseInsensitive))
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{
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loadXISF(m_file, info, &rawImage);
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qDebug() << "LoadXISF" << timer.elapsed();
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}
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else
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{
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qDebug() << "failed";
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QImage img(m_file);
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#ifdef COLOR_MANAGMENT
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if(img.colorSpace().isValid() && img.colorSpace() != QColorSpace::SRgb)
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img.convertToColorSpace(QColorSpace::SRgb);
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#endif
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ExifData *exif = exif_data_new_from_file(m_file.toLocal8Bit().constData());
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info.info.append({QObject::tr("Width"), QString::number(img.width())});
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info.info.append({QObject::tr("Height"), QString::number(img.height())});
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if(exif)
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{
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loadExifEntry(info, exif->ifd[EXIF_IFD_EXIF], EXIF_TAG_ISO_SPEED_RATINGS);
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loadExifEntry(info, exif->ifd[EXIF_IFD_EXIF], EXIF_TAG_SHUTTER_SPEED_VALUE);
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exif_data_free(exif);
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}
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rawImage = new RawImage(img);
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}
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if(rawImage && m_analyzeLevel >= Statistics && !m_thumbnail)
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{
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double mean, median, min, max, mad;
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double stdDev;
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uint32_t saturated;
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timer.start();
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rawImage->imageStats(&mean, &stdDev, &median, &min, &max, &mad, &saturated);
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qDebug() << "image stats" << timer.restart();
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info.info.append({QObject::tr("Mean"), QString::number(mean)});
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info.info.append({QObject::tr("Standart deviation"), QString::number(stdDev)});
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info.info.append({QObject::tr("Median"), QString::number(median)});
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info.info.append({QObject::tr("Minimum"), QString::number(min)});
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info.info.append({QObject::tr("Maximum"), QString::number(max)});
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info.info.append({QObject::tr("MAD"), QString::number(mad)});
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info.info.append({QObject::tr("Saturated"), QString::number(100.0 * saturated / rawImage->size()) + "%"});
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if(m_analyzeLevel >= Peaks)
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{
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std::vector<Peak> peaks;
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if(raw) {
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rawImage->quarter();
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qDebug() << "quarter" << timer.restart();
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}
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RawImage *medianImage = rawImage->medianFilter();
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qDebug() << "median" << timer.restart();
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int numPeaks = medianImage->findPeaks(median+stdDev*2, 20, peaks);
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delete medianImage;
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qDebug() << "peaks" << timer.restart();
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//if(m_analyzeLevel == Peaks)
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// drawPeaks(img, peaks);
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qDebug() << "draw peaks" << timer.restart();
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info.info.append({QObject::tr("Peaks"), QString::number(numPeaks)});
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//info.info.append({QObject::tr("Peaks draw"), QString::number(peaks.size())});
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if(m_analyzeLevel>= Stars)
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{
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double fwhmX = 0;
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double fwhmY = 0;
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const int radius = 13;
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StarFit starFit(radius);
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std::vector<Star> stars;
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for(uint i=0; i<peaks.size(); i++)
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{
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Peak p = peaks[i];
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std::vector<double> r;
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int x = p.x();
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int y = p.y();
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rawImage->rect(x, y, radius, radius, r);
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Star star = starFit.fitStar(r, false);
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if(star.valid())
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{
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//printStarModel(radius, r, star);
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star.m_x += x;
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star.m_y += y;
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fwhmX += star.fwhmX();
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fwhmY += star.fwhmY();
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stars.push_back(star);
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}
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}
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//drawStars(img, stars);
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info.info.append({QObject::tr("FWHM X"), QString::number(fwhmX/stars.size())});
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info.info.append({QObject::tr("FWHM Y"), QString::number(fwhmY/stars.size())});
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}
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qDebug() << "Star fit" << timer.restart();
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}
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}
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if(m_thumbnail)
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{
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if(rawImage)
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{
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rawImage->convertToThumbnail();
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QMetaObject::invokeMethod(m_receiver, "thumbnailLoadFinish", Qt::QueuedConnection, Q_ARG(void*, rawImage));
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}
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}
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else
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QMetaObject::invokeMethod(m_receiver, "imageLoaded", Qt::QueuedConnection, Q_ARG(void*, rawImage), Q_ARG(ImageInfoData, info));
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}
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catch(cv::Exception e)
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{
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qDebug() << e.what();
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}
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catch(std::exception e)
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{
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qDebug() << e.what();
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}
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else
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QMetaObject::invokeMethod(m_receiver, "imageLoaded", Qt::QueuedConnection, Q_ARG(void*, rawImage), Q_ARG(ImageInfoData, info));
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}
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bool readFITSHeader(const QString &path, ImageInfoData &info)
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