// SPDX-License-Identifier: GPL-2.0 #include #include #include #include #include "mapwidget.h" #include "core/divesite.h" #include "map-widget/qmlmapwidgethelper.h" #include "qt-models/maplocationmodel.h" #include "mainwindow.h" #include "divelistview.h" static const QUrl urlMapWidget = QUrl(QStringLiteral("qrc:/qml/MapWidget.qml")); static const QUrl urlMapWidgetError = QUrl(QStringLiteral("qrc:/qml/MapWidgetError.qml")); static bool isReady = false; static bool skipReload = false; #define CHECK_IS_READY_RETURN_VOID() \ if (!isReady) return MapWidget *MapWidget::m_instance = NULL; MapWidget::MapWidget(QWidget *parent) : QQuickWidget(parent) { m_rootItem = Q_NULLPTR; m_mapHelper = Q_NULLPTR; setResizeMode(QQuickWidget::SizeRootObjectToView); connect(this, &QQuickWidget::statusChanged, this, &MapWidget::doneLoading); setSource(urlMapWidget); } void MapWidget::doneLoading(QQuickWidget::Status status) { // the default map widget QML failed; load the error QML. if (source() == urlMapWidget && status != QQuickWidget::Ready) { qDebug() << urlMapWidget << "failed to load with status:" << status; setSource(urlMapWidgetError); return; } else if (source() == urlMapWidgetError) { // the error QML finished loading. return; } isReady = true; m_rootItem = qobject_cast(rootObject()); m_mapHelper = rootObject()->findChild(); connect(m_mapHelper, SIGNAL(selectedDivesChanged(QList)), this, SLOT(selectedDivesChanged(QList))); connect(m_mapHelper, &MapWidgetHelper::coordinatesChanged, this, &MapWidget::coordinatesChangedLocal); } void MapWidget::centerOnSelectedDiveSite() { CHECK_IS_READY_RETURN_VOID(); if (!skipReload) m_mapHelper->centerOnSelectedDiveSite(); } void MapWidget::centerOnDiveSite(struct dive_site *ds) { CHECK_IS_READY_RETURN_VOID(); if (!skipReload) m_mapHelper->centerOnDiveSite(ds); } void MapWidget::centerOnIndex(const QModelIndex& idx) { CHECK_IS_READY_RETURN_VOID(); struct dive_site *ds = get_dive_site_by_uuid(idx.model()->index(idx.row(), 0).data().toUInt()); if (!ds || !dive_site_has_gps_location(ds)) centerOnSelectedDiveSite(); else centerOnDiveSite(ds); } void MapWidget::repopulateLabels() { CHECK_IS_READY_RETURN_VOID(); m_mapHelper->reloadMapLocations(); } void MapWidget::reload() { CHECK_IS_READY_RETURN_VOID(); m_mapHelper->exitEditMode(); if (!skipReload) m_mapHelper->reloadMapLocations(); } void MapWidget::endGetDiveCoordinates() { CHECK_IS_READY_RETURN_VOID(); m_mapHelper->exitEditMode(); } void MapWidget::prepareForGetDiveCoordinates(uint32_t uuid) { CHECK_IS_READY_RETURN_VOID(); m_mapHelper->enterEditMode(uuid); } void MapWidget::selectedDivesChanged(QList list) { CHECK_IS_READY_RETURN_VOID(); skipReload = true; MainWindow::instance()->diveList->unselectDives(); if (!list.empty()) MainWindow::instance()->diveList->selectDives(list); skipReload = false; } void MapWidget::coordinatesChangedLocal(const location_t &location) { CHECK_IS_READY_RETURN_VOID(); emit coordinatesChanged(location); } void MapWidget::updateDiveSiteCoordinates(uint32_t uuid, const location_t &location) { CHECK_IS_READY_RETURN_VOID(); m_mapHelper->updateDiveSiteCoordinates(uuid, location); } MapWidget::~MapWidget() { m_instance = NULL; } MapWidget *MapWidget::instance() { if (m_instance == NULL) m_instance = new MapWidget(); return m_instance; }