imageanalyzer.cpp Example File

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 #include <QNetworkReply>
 #include <QNetworkRequest>
 #include <QNetworkAccessManager>
 #include <QNetworkDiskCache>
 #include "imageanalyzer.h"

 /*!
  * This class operates as follows:
  * Parent calls the slot startAnalysis which shoves a list of QStrings into URLQueue and then calls fetchURLs.
  * FetchURLs sends out HTTP GETs for each image it can't get out of the cache.
  * As the responses come in, handleReply tries to create an image out of each and pushes those images into imageQueue.
  * On the last (detected by no outstandingFetches and URLQueue.isEmpty()) call to queueImage (from handleReply)
  * a thread is forked to process all the images. When it finishes, it emits a finished signal that is received
  * by our JavaScript code.
  */

 ImageAnalyzer::ImageAnalyzer(QNetworkDiskCache* netcache, QObject* parent)
     : QObject(parent), m_cache(netcache), m_outstandingFetches(0)
 {
     /*  ImageAnalyzer only wants to receive http responses
         for requests that it makes, so that's why it has its own
         QNetworkAccessManager. */
     m_network = new QNetworkAccessManager(this);
     m_watcher = new QFutureWatcher<QRgb>(this);
     /*  We want to share a cache with the web browser,
         in case it has some images we want: */
     m_network->setCache(m_cache);

     QObject::connect(m_network, SIGNAL(finished(QNetworkReply*)),
                      this, SLOT(handleReply(QNetworkReply*)));
     QObject::connect(m_watcher, SIGNAL(finished()),
                      this, SLOT(doneProcessing()));
     QObject::connect(m_watcher, SIGNAL(progressValueChanged(int)),
                      this, SLOT(progressStatus(int)));
 }
 ImageAnalyzer::~ImageAnalyzer()
 {
     delete(m_watcher);
 }

 QRgb ImageAnalyzer::lastResults()
 {
     int rTot = 0;
     int bTot = 0;
     int gTot = 0;
     int count = m_watcher->future().results().size();
     foreach(const QRgb & triplet, m_watcher->future().results())
     {
         rTot += qRed(triplet);
         bTot += qBlue(triplet);
         gTot += qGreen(triplet);
     }
     return qRgb(rTot/count, bTot/count, gTot/count);
 }

 float ImageAnalyzer::lastRed() { return qRed(lastResults())/2.55; }
 float ImageAnalyzer::lastGreen() { return qGreen(lastResults())/2.55; }
 float ImageAnalyzer::lastBlue() { return qBlue(lastResults())/2.55; }

 void ImageAnalyzer::progressStatus(int newstat)
 {
     emit updateProgress(newstat, m_watcher->progressMaximum());
 }

 bool ImageAnalyzer::isBusy()
 {
     return m_watcher->isRunning();
 }

 void ImageAnalyzer::startAnalysis(const QStringList & urls)
 {
     m_URLQueue = urls;
     fetchURLs();
 }

 /*!
  * Analyzes the entire queue - just starts all our http GETs.
  */
 void ImageAnalyzer::fetchURLs()
 {
     while (!m_URLQueue.isEmpty())
     {
         QString url = m_URLQueue.takeFirst();
         QUrl URL = QUrl(url);
         QIODevice * pData = m_cache->data(URL);
         // Is image already loaded in cache?
         if (pData == 0) {
             // HTTP Get image over network.
             m_outstandingFetches++;
             QNetworkRequest request = QNetworkRequest(URL);
             request.setRawHeader("User-Agent", "Nokia - Custom QT app");
             m_network->get(request);
         } else {
             // Get image from cache
             QImage image;
             image.load(pData, 0);
             if (!image.isNull())
                 queueImage(image);
             delete(pData);
         }
     }
 }
 /*
  * Slot to handle the incoming responses from our http GETs
  */
 void ImageAnalyzer::handleReply(QNetworkReply * pReply)
 {
     m_outstandingFetches--;
     if (pReply->error()) {
         qDebug() << "Error code" << pReply->error();
         qDebug() << "Http code" << pReply->attribute(QNetworkRequest::HttpStatusCodeAttribute);
         return;
     }
     QImage image;
     image.load(pReply, 0);
     pReply->deleteLater();
     if (image.isNull()) {
         qDebug() << "bad image";
         qDebug() << pReply->rawHeaderList();
         foreach(QByteArray element, pReply->rawHeaderList()) {
             qDebug() << element << " = " << pReply->rawHeader(element);
         }
         return;
     }
     queueImage(image);
 }

 void ImageAnalyzer::doneProcessing()
 {
     m_imageQueue = QList<QImage>();
     emit finishedAnalysis();
 }
 void ImageAnalyzer::queueImage(QImage img)
 {
     if (!img.isNull())
         m_imageQueue << img;

     if (m_outstandingFetches == 0 && m_URLQueue.isEmpty()) {
         m_watcher->setFuture(QtConcurrent::mapped(m_imageQueue, averageRGB));
     }
 }

 QRgb averageRGB(const QImage &img)
 {
     int pixelCount = img.width() * img.height();
     int rAvg, gAvg, bAvg;

     // We waste some time here:
     for (int timeWaster=0; timeWaster < 100; timeWaster++) {
         quint64 rTot = 0;
         quint64 gTot = 0;
         quint64 bTot = 0;
         for (int i=0; i < img.width(); i++) {
             for (int j=0; j < img.height(); j++) {
                 QRgb pixel = img.pixel(i,j);
                 rTot += qRed(pixel);
                 gTot += qGreen(pixel);
                 bTot += qBlue(pixel);
             }
         }
         rAvg = (rTot)/(pixelCount);
         gAvg = (gTot)/(pixelCount);
         bAvg = (bTot)/(pixelCount);
     }
     return qRgb(rAvg, gAvg, bAvg);
 }