subsurface/core/imagedownloader.cpp
Berthold Stoeger f3ef38ca0d Dive pictures: remove hashes
In the last commits, the canonical-to-local filename map was made
independent from the image hashes and the location of moved images
was based on filename not hashes. The hashes are now in principle
unused (except for conversion of old-style local filename lookups).

Therefore, remove the hashes in this commit. This makes addition
of images distinctly faster.

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2018-07-04 02:27:36 +08:00

311 lines
10 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include "dive.h"
#include "metrics.h"
#include "divelist.h"
#include "qthelper.h"
#include "imagedownloader.h"
#include "qt-models/divepicturemodel.h"
#include "metadata.h"
#include <unistd.h>
#include <QString>
#include <QImageReader>
#include <QDataStream>
#include <QSvgRenderer>
#include <QPainter>
#include <QtConcurrent>
// Note: this is a global instead of a function-local variable on purpose.
// We don't want this to be generated in a different thread context if
// ImageDownloader::instance() is called from a worker thread.
static ImageDownloader imageDownloader;
ImageDownloader *ImageDownloader::instance()
{
return &imageDownloader;
}
ImageDownloader::ImageDownloader()
{
connect(&manager, &QNetworkAccessManager::finished, this, &ImageDownloader::saveImage);
}
void ImageDownloader::load(QUrl url, QString filename)
{
QNetworkRequest request(url);
request.setAttribute(QNetworkRequest::User, filename);
manager.get(request);
}
void ImageDownloader::saveImage(QNetworkReply *reply)
{
QString filename = reply->request().attribute(QNetworkRequest::User).toString();
if (reply->error() != QNetworkReply::NoError) {
emit failed(filename);
} else {
QByteArray imageData = reply->readAll();
if (imageData.isEmpty()) {
emit failed(filename);
} else {
QString path = QStandardPaths::standardLocations(QStandardPaths::CacheLocation).first();
QDir dir(path);
if (!dir.exists())
dir.mkpath(path);
QCryptographicHash hash(QCryptographicHash::Sha1);
hash.addData(filename.toUtf8());
QFile imageFile(path.append("/").append(hash.result().toHex()));
if (imageFile.open(QIODevice::WriteOnly)) {
qDebug() << "Write image to" << imageFile.fileName();
QDataStream stream(&imageFile);
stream.writeRawData(imageData.data(), imageData.length());
imageFile.waitForBytesWritten(-1);
imageFile.close();
learnPictureFilename(filename, imageFile.fileName());
}
emit loaded(filename);
}
}
reply->deleteLater();
}
// Fetch a picture from the given filename. If this is a non-remote filename, fetch it from disk.
// Remote files are fetched from the net in a background thread. In such a case, the output-flag
// "stillLoading" is set to true.
// If the input-flag "tryDownload" is set to false, no download attempt is made. This is to
// prevent infinite loops, where failed image downloads would be repeated ad infinitum.
// Returns: fetched image, stillLoading flag
static std::pair<QImage, bool> fetchImage(const QString &filename, const QString &originalFilename, bool tryDownload)
{
QImage thumb;
bool stillLoading = false;
QUrl url = QUrl::fromUserInput(filename);
if (url.isLocalFile()) {
thumb.load(url.toLocalFile());
} else if (tryDownload) {
// This has to be done in UI main thread, because QNetworkManager refuses
// to treat requests from other threads. invokeMethod() is Qt's way of calling a
// function in a different thread, namely the thread the called object is associated to.
QMetaObject::invokeMethod(ImageDownloader::instance(), "load", Qt::AutoConnection, Q_ARG(QUrl, url), Q_ARG(QString, originalFilename));
stillLoading = true;
}
return { thumb, stillLoading };
}
// Fetch a picture based on its original filename. If there is a translated filename (obtained either
// by the find-moved-picture functionality or the filename of the local cache of a remote picture),
// try that first. If fetching from the translated filename fails, this could mean that the image
// was downloaded previously, but for some reason the cached picture was lost. Therefore, in such a
// case, try the canonical filename. If that likewise fails, give up. For input and output parameters
// see fetchImage() above.
static std::pair<QImage, bool> getHashedImage(const QString &filename, bool tryDownload)
{
QImage thumb;
bool stillLoading = false;
QString localFilename = localFilePath(filename);
// If there is a translated filename, try that first
if (localFilename != filename)
std::tie(thumb, stillLoading) = fetchImage(localFilename, filename, tryDownload);
// Note that the translated filename should never be a remote file and therefore checking for
// stillLoading is currently not necessary. But in the future, we might support such a use case
// (e.g. images stored in the cloud).
if (thumb.isNull() && !stillLoading)
std::tie(thumb, stillLoading) = fetchImage(filename, filename, tryDownload);
if (thumb.isNull() && !stillLoading)
qInfo() << "Error loading image" << filename << "[local:" << localFilename << "]";
return { thumb, stillLoading };
}
static QImage renderIcon(const char *id, int size)
{
QImage res(size, size, QImage::Format_RGB32);
res.fill(Qt::white);
QSvgRenderer svg{QString(id)};
QPainter painter(&res);
svg.render(&painter);
return res;
}
Thumbnailer::Thumbnailer() : failImage(renderIcon(":filter-close", maxThumbnailSize())), // TODO: Don't misuse filter close icon
dummyImage(renderIcon(":camera-icon", maxThumbnailSize()))
{
// Currently, we only process one image at a time. Stefan Fuchs reported problems when
// calculating multiple thumbnails at once and this hopefully helps.
pool.setMaxThreadCount(1);
connect(ImageDownloader::instance(), &ImageDownloader::loaded, this, &Thumbnailer::imageDownloaded);
connect(ImageDownloader::instance(), &ImageDownloader::failed, this, &Thumbnailer::imageDownloadFailed);
}
Thumbnailer *Thumbnailer::instance()
{
static Thumbnailer self;
return &self;
}
static QImage getThumbnailFromCache(const QString &picture_filename)
{
QString filename = thumbnailFileName(picture_filename);
if (filename.isEmpty())
return QImage();
QFile file(filename);
if (prefs.auto_recalculate_thumbnails) {
// Check if thumbnails is older than the (local) image file
QString filenameLocal = localFilePath(qPrintable(picture_filename));
QFileInfo pictureInfo(filenameLocal);
QFileInfo thumbnailInfo(file);
if (pictureInfo.exists() && thumbnailInfo.exists()) {
QDateTime pictureTime = pictureInfo.lastModified();
QDateTime thumbnailTime = thumbnailInfo.lastModified();
if (pictureTime.isValid() && thumbnailTime.isValid() && thumbnailTime < pictureTime) {
// Both files exist, have valid timestamps and thumbnail was calculated before picture.
// Return an empty thumbnail to signal recalculation of the thumbnail
return QImage();
}
}
}
if (!file.open(QIODevice::ReadOnly))
return QImage();
QDataStream stream(&file);
// Each thumbnail file is composed of a media-type and an image file.
// Currently, the type is ignored. This will be used to mark videos.
quint32 type;
QImage res;
stream >> type;
stream >> res;
return res;
}
static void addThumbnailToCache(const QImage &thumbnail, const QString &picture_filename)
{
if (thumbnail.isNull())
return;
QString filename = thumbnailFileName(picture_filename);
QSaveFile file(filename);
if (!file.open(QIODevice::WriteOnly))
return;
QDataStream stream(&file);
// For format of the file, see comments in getThumnailForCache
quint32 type = MEDIATYPE_PICTURE;
stream << type;
stream << thumbnail;
file.commit();
}
void Thumbnailer::recalculate(QString filename)
{
auto res = getHashedImage(filename, true);
// If we couldn't load the image from disk -> leave old thumbnail.
// The case "load from web" is a bit inconsistent: it will call into processItem() later
// and therefore a "broken" image symbol may be shown.
if (res.second || res.first.isNull())
return;
QImage thumbnail = res.first;
addThumbnailToCache(thumbnail, filename);
QMutexLocker l(&lock);
emit thumbnailChanged(filename, thumbnail);
workingOn.remove(filename);
}
void Thumbnailer::processItem(QString filename, bool tryDownload)
{
QImage thumbnail = getThumbnailFromCache(filename);
if (thumbnail.isNull()) {
auto res = getHashedImage(filename, tryDownload);
if (res.second)
return;
thumbnail = res.first;
if (thumbnail.isNull()) {
thumbnail = failImage;
} else {
int size = maxThumbnailSize();
thumbnail = thumbnail.scaled(size, size, Qt::KeepAspectRatio);
addThumbnailToCache(thumbnail, filename);
}
}
QMutexLocker l(&lock);
emit thumbnailChanged(filename, thumbnail);
workingOn.remove(filename);
}
void Thumbnailer::imageDownloaded(QString filename)
{
// Image was downloaded -> try thumbnailing again.
QMutexLocker l(&lock);
workingOn[filename] = QtConcurrent::run(&pool, [this, filename]() { processItem(filename, false); });
}
void Thumbnailer::imageDownloadFailed(QString filename)
{
emit thumbnailChanged(filename, failImage);
QMutexLocker l(&lock);
workingOn.remove(filename);
}
QImage Thumbnailer::fetchThumbnail(PictureEntry &entry)
{
QMutexLocker l(&lock);
// We are not currently fetching this thumbnail - add it to the list.
const QString &filename = entry.filename;
if (!workingOn.contains(filename)) {
workingOn.insert(filename,
QtConcurrent::run(&pool, [this, filename]() { processItem(filename, true); }));
}
return dummyImage;
}
void Thumbnailer::calculateThumbnails(const QVector<QString> &filenames)
{
QMutexLocker l(&lock);
for (const QString &filename: filenames) {
if (!workingOn.contains(filename)) {
workingOn.insert(filename,
QtConcurrent::run(&pool, [this, filename]() { recalculate(filename); }));
}
}
}
void Thumbnailer::clearWorkQueue()
{
QMutexLocker l(&lock);
for (auto it = workingOn.begin(); it != workingOn.end(); ++it)
it->cancel();
workingOn.clear();
}
static const int maxZoom = 3; // Maximum zoom: thrice of standard size
int Thumbnailer::defaultThumbnailSize()
{
return defaultIconMetrics().sz_pic;
}
int Thumbnailer::maxThumbnailSize()
{
return defaultThumbnailSize() * maxZoom;
}
int Thumbnailer::thumbnailSize(double zoomLevel)
{
// Calculate size of thumbnails. The standard size is defaultIconMetrics().sz_pic.
// We use exponential scaling so that the central point is the standard
// size and the minimum and maximum extreme points are a third respectively
// three times the standard size.
// Naturally, these three zoom levels are then represented by
// -1.0 (minimum), 0 (standard) and 1.0 (maximum). The actual size is
// calculated as standard_size*3.0^zoomLevel.
return static_cast<int>(round(defaultThumbnailSize() * pow(maxZoom, zoomLevel)));
}