#include "globe.h" #ifndef NO_MARBLE #include "mainwindow.h" #include "helpers.h" #include "divelistview.h" #include "maintab.h" #include "display.h" #include #include #include #include #include #include #include #include #include #ifdef MARBLE_SUBSURFACE_BRANCH #include #endif #if INCOMPLETE_MARBLE #include "marble/GeoDataTreeModel.h" #else #include #endif // as of Marble 4.10 (which has MARBLE_VERSION 0x001000) zoomView is // deprecated and has been replaced by setZoom with the same function signature #if MARBLE_VERSION < 0x001000 #define setZoom zoomView #endif GlobeGPS::GlobeGPS(QWidget *parent) : MarbleWidget(parent), loadedDives(0), messageWidget(new KMessageWidget(this)), fixZoomTimer(new QTimer(this)), currentZoomLevel(0), needResetZoom(false), editingDiveLocation(false) { #ifdef MARBLE_SUBSURFACE_BRANCH // we need to make sure this gets called after the command line arguments have // been processed but before we initialize the rest of Marble Marble::MarbleDebug::setEnabled(verbose); #endif // check if Google Sat Maps are installed // if not, check if they are in a known location MapThemeManager mtm; QStringList list = mtm.mapThemeIds(); QString subsurfaceDataPath; QDir marble; if (!list.contains("earth/googlesat/googlesat.dgml")) { subsurfaceDataPath = getSubsurfaceDataPath("marbledata"); if (subsurfaceDataPath.size()) { MarbleDirs::setMarbleDataPath(subsurfaceDataPath); } else { subsurfaceDataPath = getSubsurfaceDataPath("data"); if (subsurfaceDataPath.size()) MarbleDirs::setMarbleDataPath(subsurfaceDataPath); } } messageWidget->setCloseButtonVisible(false); messageWidget->setHidden(true); setMapThemeId("earth/googlesat/googlesat.dgml"); //setMapThemeId("earth/openstreetmap/openstreetmap.dgml"); setProjection(Marble::Spherical); setAnimationsEnabled(true); Q_FOREACH (AbstractFloatItem *i, floatItems()) { i->setVisible(false); } setShowClouds(false); setShowBorders(false); setShowPlaces(true); setShowCrosshairs(false); setShowGrid(false); setShowOverviewMap(false); setShowScaleBar(true); setShowCompass(false); connect(this, SIGNAL(mouseClickGeoPosition(qreal, qreal, GeoDataCoordinates::Unit)), this, SLOT(mouseClicked(qreal, qreal, GeoDataCoordinates::Unit))); setMinimumHeight(0); setMinimumWidth(0); connect(fixZoomTimer, SIGNAL(timeout()), this, SLOT(fixZoom())); fixZoomTimer->setSingleShot(true); installEventFilter(this); } bool GlobeGPS::eventFilter(QObject *obj, QEvent *ev) { // sometimes Marble seems not to notice double clicks and consequently not call // the right callback - so let's remember here if the last 'click' is a 'double' or not enum QEvent::Type type = ev->type(); if (type == QEvent::MouseButtonDblClick) doubleClick = true; else if (type == QEvent::MouseButtonPress) doubleClick = false; // This disables Zooming when a double click occours on the scene. if (type == QEvent::MouseButtonDblClick && !editingDiveLocation) return true; // This disables the Marble's Context Menu // we need to move this to our 'contextMenuEvent' // if we plan to do a different one in the future. if (type == QEvent::ContextMenu) { contextMenuEvent(static_cast(ev)); return true; } if (type == QEvent::MouseButtonPress) { QMouseEvent *e = static_cast(ev); if (e->button() == Qt::RightButton) return true; } return QObject::eventFilter(obj, ev); } void GlobeGPS::contextMenuEvent(QContextMenuEvent *ev) { QMenu m; QAction *a = m.addAction(tr("Edit selected dive locations"), this, SLOT(prepareForGetDiveCoordinates())); a->setData(QVariant::fromValue(&m)); a->setEnabled(current_dive); m.exec(ev->globalPos()); } void GlobeGPS::mouseClicked(qreal lon, qreal lat, GeoDataCoordinates::Unit unit) { if (doubleClick) { // strangely sometimes we don't get the changeDiveGeoPosition callback // and end up here instead changeDiveGeoPosition(lon, lat, unit); return; } // don't mess with the selection while the user is editing a dive if (MainWindow::instance()->information()->isEditing() || messageWidget->isVisible()) return; GeoDataCoordinates here(lon, lat, unit); long lon_udeg = rint(1000000 * here.longitude(GeoDataCoordinates::Degree)); long lat_udeg = rint(1000000 * here.latitude(GeoDataCoordinates::Degree)); // distance() is in km above the map. // We're going to use that to decide how // approximate the dives have to be. // // Totally arbitrarily I say that 1km // distance means that we can resolve // to about 100m. Which in turn is about // 1000 udeg. // // Trigonometry is hard, but sin x == x // for small x, so let's just do this as // a linear thing. long resolve = rint(distance() * 1000); int idx; struct dive *dive; bool clear = !(QApplication::keyboardModifiers() & Qt::ControlModifier); QList selectedDiveIds; for_each_dive (idx, dive) { long lat_diff, lon_diff; struct dive_site *ds = get_dive_site_for_dive(dive); if (!dive_site_has_gps_location(ds)) continue; lat_diff = labs(ds->latitude.udeg - lat_udeg); lon_diff = labs(ds->longitude.udeg - lon_udeg); if (lat_diff > 180000000) lat_diff = 360000000 - lat_diff; if (lon_diff > 180000000) lon_diff = 180000000 - lon_diff; if (lat_diff > resolve || lon_diff > resolve) continue; selectedDiveIds.push_back(idx); } if (selectedDiveIds.empty()) return; if (clear) MainWindow::instance()->dive_list()->unselectDives(); MainWindow::instance()->dive_list()->selectDives(selectedDiveIds); } void GlobeGPS::repopulateLabels() { struct dive_site *ds; int idx; QMap locationMap; if (loadedDives) { model()->treeModel()->removeDocument(loadedDives); delete loadedDives; } loadedDives = new GeoDataDocument; for_each_dive_site(idx, ds) { if (ds->uuid == displayed_dive_site.uuid) continue; if (dive_site_has_gps_location(ds)) { GeoDataPlacemark *place = new GeoDataPlacemark(ds->name); place->setCoordinate(ds->longitude.udeg / 1000000.0, ds->latitude.udeg / 1000000.0, 0, GeoDataCoordinates::Degree); // don't add dive locations twice, unless they are at least 50m apart if (locationMap[QString(ds->name)]) { GeoDataCoordinates existingLocation = locationMap[QString(ds->name)]->coordinate(); GeoDataLineString segment = GeoDataLineString(); segment.append(existingLocation); GeoDataCoordinates newLocation = place->coordinate(); segment.append(newLocation); double dist = segment.length(6371); // the dist is scaled to the radius given - so with 6371km as radius // 50m turns into 0.05 as threashold if (dist < 0.05) continue; } locationMap[QString(ds->name)] = place; loadedDives->append(place); } } if (displayed_dive_site.uuid && dive_site_has_gps_location(&displayed_dive_site)) { GeoDataPlacemark *place = new GeoDataPlacemark(displayed_dive_site.name); place->setCoordinate(displayed_dive_site.longitude.udeg / 1000000.0, displayed_dive_site.latitude.udeg / 1000000.0, 0, GeoDataCoordinates::Degree); locationMap[QString(displayed_dive_site.name)] = place; loadedDives->append(place); } model()->treeModel()->addDocument(loadedDives); struct dive_site *center = displayed_dive_site.uuid != 0 ? &displayed_dive_site : current_dive ? get_dive_site_by_uuid(current_dive->dive_site_uuid) : NULL; if(center) centerOn(displayed_dive_site.longitude.udeg / 1000000.0, displayed_dive_site.latitude.udeg / 1000000.0, true); } void GlobeGPS::reload() { editingDiveLocation = false; messageWidget->hide(); repopulateLabels(); } void GlobeGPS::centerOnDiveSite(uint32_t uuid) { if (uuid == 0) return; struct dive_site *ds = get_dive_site_by_uuid(uuid); if (!dive_site_has_gps_location(ds)) { zoomOutForNoGPS(); return; } qreal longitude = ds->longitude.udeg / 1000000.0; qreal latitude = ds->latitude.udeg / 1000000.0; // if no zoom is set up, set the zoom as seen from 3km above // if we come back from a dive without GPS data, reset to the last zoom value // otherwise check to make sure we aren't still running an animation and then remember // the current zoom level if (!zoom()) { currentZoomLevel = zoomFromDistance(3); fixZoom(); } else if (needResetZoom) { needResetZoom = false; fixZoom(); } else if (!fixZoomTimer->isActive()) currentZoomLevel = zoom(); // From the marble source code, the maximum time of // 'spin and fit' is 2 seconds, so wait a bit them zoom again. fixZoomTimer->start(2100); centerOn(longitude, latitude, true); } void GlobeGPS::fixZoom() { setZoom(currentZoomLevel, Marble::Linear); } void GlobeGPS::zoomOutForNoGPS() { // this is called if the dive has no GPS location. // zoom out quite a bit to show the globe and remember that the next time // we show a dive with GPS location we need to zoom in again if (fixZoomTimer->isActive()) fixZoomTimer->stop(); setZoom(0, Marble::Automatic); if (!needResetZoom) { needResetZoom = true; currentZoomLevel = zoom(); } } void GlobeGPS::endGetDiveCoordinates() { messageWidget->animatedHide(); editingDiveLocation = false; } void GlobeGPS::prepareForGetDiveCoordinates() { messageWidget->setMessageType(KMessageWidget::Warning); messageWidget->setText(QObject::tr("Move the map and double-click to set the dive location")); messageWidget->setWordWrap(true); messageWidget->setCloseButtonVisible(false); messageWidget->animatedShow(); editingDiveLocation = true; if (!dive_has_gps_location(current_dive)) zoomOutForNoGPS(); } void GlobeGPS::changeDiveGeoPosition(qreal lon, qreal lat, GeoDataCoordinates::Unit unit) { if (!editingDiveLocation) return; // convert to degrees if in radian. if (unit == GeoDataCoordinates::Radian) { lon = lon * 180 / M_PI; lat = lat * 180 / M_PI; } centerOn(lon, lat, true); // change the location of the displayed_dive and put the UI in edit mode displayed_dive_site.latitude.udeg = lrint(lat * 1000000.0); displayed_dive_site.longitude.udeg = lrint(lon * 1000000.0); emit coordinatesChanged(); repopulateLabels(); } void GlobeGPS::mousePressEvent(QMouseEvent *event) { if (event->type() != QEvent::MouseButtonDblClick) return; qreal lat, lon; bool clickOnGlobe = geoCoordinates(event->pos().x(), event->pos().y(), lon, lat, GeoDataCoordinates::Degree); // there could be two scenarios that got us here; let's check if we are editing a dive if (MainWindow::instance()->information()->isEditing() && clickOnGlobe) { // // FIXME // TODO // // this needs to do this on the dive site screen // MainWindow::instance()->information()->updateCoordinatesText(lat, lon); repopulateLabels(); } else if (clickOnGlobe) { changeDiveGeoPosition(lon, lat, GeoDataCoordinates::Degree); } } void GlobeGPS::resizeEvent(QResizeEvent *event) { int size = event->size().width(); MarbleWidget::resizeEvent(event); if (size > 600) messageWidget->setGeometry((size - 600) / 2, 5, 600, 0); else messageWidget->setGeometry(5, 5, size - 10, 0); messageWidget->setMaximumHeight(500); } #else GlobeGPS::GlobeGPS(QWidget *parent) { setText("MARBLE DISABLED AT BUILD TIME"); } void GlobeGPS::repopulateLabels() { } void GlobeGPS::centerOnCurrentDive() { } bool GlobeGPS::eventFilter(QObject *obj, QEvent *ev) { return QObject::eventFilter(obj, ev); } void GlobeGPS::prepareForGetDiveCoordinates() { } void GlobeGPS::endGetDiveCoordinates() { } void GlobeGPS::reload() { } #endif