subsurface/desktop-widgets/globe.cpp
Jeremie Guichard 597539ce39 Fix double to int truncation in C++ code
Wfloat-conversion enabled for C++ part of the code
Fix warnings raised by the flag using lrint

Original issue reported on the mailing list:
The ascent/descent rates are sometimes not what is expected.
E.g. setting the ascent rate to 10m/min results in an actual
ascent rate of 9m/min.
This is due to truncating the ascent rate preference,
then effectively rounding up the time to reach each stop to 2s intervals.
The result being that setting the ascent rate to 10m/min
results in 20s to ascend 3m (9m/min), when it should be exactly 18s.

Reported-by: John Smith <noseygit@hotmail.com>
Reported-by: Rick Walsh <rickmwalsh@gmail.com>
Signed-off-by: Jeremie Guichard <djebrest@gmail.com>
2017-03-24 09:39:25 -07:00

431 lines
13 KiB
C++

#include "desktop-widgets/globe.h"
#ifndef NO_MARBLE
#include "desktop-widgets/mainwindow.h"
#include "core/helpers.h"
#include "desktop-widgets/divelistview.h"
#include "desktop-widgets/maintab.h"
#include "core/display.h"
#include <QTimer>
#include <QContextMenuEvent>
#include <QMouseEvent>
#include <marble/AbstractFloatItem.h>
#include <marble/GeoDataPlacemark.h>
#include <marble/GeoDataDocument.h>
#include <marble/MarbleModel.h>
#include <marble/MarbleDirs.h>
#include <marble/MapThemeManager.h>
#include <marble/GeoDataStyle.h>
#include <marble/GeoDataIconStyle.h>
#include <marble/GeoDataTreeModel.h>
#ifdef MARBLE_SUBSURFACE_BRANCH
#include <marble/MarbleDebug.h>
#endif
GlobeGPS *GlobeGPS::instance()
{
static GlobeGPS *self = new GlobeGPS();
return self;
}
GlobeGPS::GlobeGPS(QWidget *parent) : MarbleWidget(parent),
loadedDives(0),
messageWidget(new KMessageWidget(this)),
fixZoomTimer(new QTimer(this)),
needResetZoom(false),
editingDiveLocation(false),
doubleClick(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
currentZoomLevel = -1;
// 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<QContextMenuEvent *>(ev));
return true;
}
if (type == QEvent::MouseButtonPress) {
QMouseEvent *e = static_cast<QMouseEvent *>(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<void *>(&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 = lrint(1000000 * here.longitude(GeoDataCoordinates::Degree));
long lat_udeg = lrint(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 = lrint(distance() * 1000);
int idx;
struct dive *dive;
bool clear = !(QApplication::keyboardModifiers() & Qt::ControlModifier);
QList<int> 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()
{
static GeoDataStyle otherSite, currentSite;
static GeoDataIconStyle darkFlag(QImage(":flagDark")), lightFlag(QImage(":flagLight"));
struct dive_site *ds;
int idx;
QMap<QString, GeoDataPlacemark *> locationMap;
if (loadedDives) {
model()->treeModel()->removeDocument(loadedDives);
delete loadedDives;
}
loadedDives = new GeoDataDocument;
otherSite.setIconStyle(darkFlag);
currentSite.setIconStyle(lightFlag);
if (displayed_dive_site.uuid && dive_site_has_gps_location(&displayed_dive_site)) {
GeoDataPlacemark *place = new GeoDataPlacemark(displayed_dive_site.name);
place->setStyle(&currentSite);
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);
}
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->setStyle(&otherSite);
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);
}
}
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(dive_site_has_gps_location(&displayed_dive_site) && 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(struct dive_site *ds)
{
if (!dive_site_has_gps_location(ds)) {
// this is not intuitive and at times causes trouble - let's comment it out for now
// zoomOutForNoGPS();
return;
}
qreal longitude = ds->longitude.udeg / 1000000.0;
qreal latitude = ds->latitude.udeg / 1000000.0;
if(IS_FP_SAME(longitude, centerLongitude()) && IS_FP_SAME(latitude,centerLatitude())) {
return;
}
// 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 (currentZoomLevel == -1) {
currentZoomLevel = lrint(zoomFromDistance(3.0));
centerOn(longitude, latitude);
fixZoom(true);
return;
}
if (!fixZoomTimer->isActive()) {
if (needResetZoom) {
needResetZoom = false;
fixZoom();
} else if (zoom() >= 1200) {
currentZoomLevel = zoom();
}
}
// From the marble source code, the maximum time of
// 'spin and fit' is 2000 miliseconds so wait a bit them zoom again.
fixZoomTimer->stop();
if (zoom() < 1200 && IS_FP_SAME(centerLatitude(), latitude) && IS_FP_SAME(centerLongitude(), longitude)) {
// create a tiny movement
centerOn(longitude + 0.00001, latitude + 0.00001);
fixZoomTimer->start(300);
} else {
fixZoomTimer->start(2100);
}
centerOn(longitude, latitude, true);
}
void GlobeGPS::fixZoom(bool now)
{
setZoom(currentZoomLevel, now ? Marble::Instant : 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 (!needResetZoom) {
needResetZoom = true;
if (!fixZoomTimer->isActive() && zoom() >= 1500) {
currentZoomLevel = zoom();
}
}
if (fixZoomTimer->isActive())
fixZoomTimer->stop();
// 1000 is supposed to make sure you see the whole globe
setZoom(1000, Marble::Linear);
}
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;
// this is not intuitive and at times causes trouble - let's comment it out for now
// 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 = llrint(lat * 1000000.0);
displayed_dive_site.longitude.udeg = llrint(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);
}
void GlobeGPS::centerOnIndex(const QModelIndex& idx)
{
struct dive_site *ds = get_dive_site_by_uuid(idx.model()->index(idx.row(), 0).data().toInt());
if (!ds || !dive_site_has_gps_location(ds))
centerOnDiveSite(&displayed_dive_site);
else
centerOnDiveSite(ds);
}
#else
GlobeGPS *GlobeGPS::instance()
{
static GlobeGPS *self = new GlobeGPS();
return self;
}
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()
{
}
void GlobeGPS::centerOnIndex(const QModelIndex& idx)
{
}
#endif