subsurface/mobile-widgets/qmlmapwidgethelper.cpp
Lubomir I. Ivanov 56e755b711 Use lrint() for all degrees_t related rounding
In certain places the '(int)' cast is used, while in other the
llrint() or lrint() functions. Make the conversation from degrees
in the 'double' form to the 'int' degrees_t consistent using lrint().

lrint() is the function which should give the best results,
because it accepts a 'double' and results in a 'long'
even if degrees_t is 'int'. If the truncation from 'long' to 'int'
is discarding some of the precision then the next step
would be to turn degrees_t into a 64bit signed integer type.

Possible fix for #625.

Signed-off-by: Lubomir I. Ivanov <neolit123@gmail.com>
2017-10-09 13:38:58 +03:00

264 lines
9.5 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include <QApplication>
#include <QClipboard>
#include <QGeoCoordinate>
#include <QDebug>
#include <QVector>
#include "qmlmapwidgethelper.h"
#include "core/dive.h"
#include "core/divesite.h"
#include "core/helpers.h"
#include "qt-models/maplocationmodel.h"
#define MIN_DISTANCE_BETWEEN_DIVE_SITES_M 50.0
#define SMALL_CIRCLE_RADIUS_PX 26.0
MapWidgetHelper::MapWidgetHelper(QObject *parent) : QObject(parent)
{
m_mapLocationModel = new MapLocationModel(this);
connect(m_mapLocationModel, SIGNAL(selectedLocationChanged(MapLocation *)),
this, SLOT(selectedLocationChanged(MapLocation *)));
}
void MapWidgetHelper::centerOnDiveSite(struct dive_site *ds)
{
int idx;
struct dive *dive;
QVector<struct dive_site *> selDS;
QVector<QGeoCoordinate> selGC;
QGeoCoordinate dsCoord;
for_each_dive (idx, dive) {
struct dive_site *dss = get_dive_site_for_dive(dive);
if (!dive_site_has_gps_location(dss) || !dive->selected)
continue;
// only store dive sites with GPS
selDS.append(dss);
selGC.append(QGeoCoordinate(dss->latitude.udeg * 0.000001,
dss->longitude.udeg * 0.000001));
}
if (!dive_site_has_gps_location(ds) && !selDS.size()) {
// only a single dive site with no GPS selected
m_mapLocationModel->setSelectedUuid(ds ? ds->uuid : 0, false);
QMetaObject::invokeMethod(m_map, "deselectMapLocation");
} else if (selDS.size() == 1) {
// a single dive site with GPS selected
ds = selDS.at(0);
m_mapLocationModel->setSelectedUuid(ds->uuid, false);
dsCoord.setLatitude(ds->latitude.udeg * 0.000001);
dsCoord.setLongitude(ds->longitude.udeg * 0.000001);
QMetaObject::invokeMethod(m_map, "centerOnCoordinate", Q_ARG(QVariant, QVariant::fromValue(dsCoord)));
} else if (selDS.size() > 1) {
/* more than one dive sites with GPS selected.
* find the most top-left and bottom-right dive sites on the map coordinate system. */
ds = selDS.at(0);
m_mapLocationModel->setSelectedUuid(ds->uuid, false);
qreal minLat = 0.0, minLon = 0.0, maxLat = 0.0, maxLon = 0.0;
bool start = true;
foreach(QGeoCoordinate gc, selGC) {
qreal lat = gc.latitude();
qreal lon = gc.longitude();
if (start) {
minLat = maxLat = lat;
minLon = maxLon = lon;
start = false;
continue;
}
if (lat < minLat)
minLat = lat;
else if (lat > maxLat)
maxLat = lat;
if (lon < minLon)
minLon = lon;
else if (lon > maxLon)
maxLon = lon;
}
// pass rectangle coordinates to QML
QGeoCoordinate coordTopLeft(minLat, minLon);
QGeoCoordinate coordBottomRight(maxLat, maxLon);
QGeoCoordinate coordCenter(minLat + (maxLat - minLat) * 0.5, minLon + (maxLon - minLon) * 0.5);
QMetaObject::invokeMethod(m_map, "centerOnRectangle",
Q_ARG(QVariant, QVariant::fromValue(coordTopLeft)),
Q_ARG(QVariant, QVariant::fromValue(coordBottomRight)),
Q_ARG(QVariant, QVariant::fromValue(coordCenter)));
}
}
void MapWidgetHelper::reloadMapLocations()
{
struct dive_site *ds;
int idx;
QMap<QString, MapLocation *> locationNameMap;
m_mapLocationModel->clear();
MapLocation *location;
QVector<MapLocation *> locationList;
qreal latitude, longitude;
if (displayed_dive_site.uuid && dive_site_has_gps_location(&displayed_dive_site)) {
latitude = displayed_dive_site.latitude.udeg * 0.000001;
longitude = displayed_dive_site.longitude.udeg * 0.000001;
location = new MapLocation(displayed_dive_site.uuid, QGeoCoordinate(latitude, longitude),
QString(displayed_dive_site.name));
locationList.append(location);
locationNameMap[QString(displayed_dive_site.name)] = location;
}
for_each_dive_site(idx, ds) {
if (!dive_site_has_gps_location(ds) || ds->uuid == displayed_dive_site.uuid)
continue;
latitude = ds->latitude.udeg * 0.000001;
longitude = ds->longitude.udeg * 0.000001;
QGeoCoordinate dsCoord(latitude, longitude);
QString name(ds->name);
// don't add dive locations with the same name, unless they are
// at least MIN_DISTANCE_BETWEEN_DIVE_SITES_M apart
if (locationNameMap[name]) {
MapLocation *existingLocation = locationNameMap[name];
QGeoCoordinate coord = qvariant_cast<QGeoCoordinate>(existingLocation->getRole(MapLocation::Roles::RoleCoordinate));
if (dsCoord.distanceTo(coord) < MIN_DISTANCE_BETWEEN_DIVE_SITES_M)
continue;
}
location = new MapLocation(ds->uuid, dsCoord, name);
locationList.append(location);
locationNameMap[name] = location;
}
m_mapLocationModel->addList(locationList);
}
void MapWidgetHelper::selectedLocationChanged(MapLocation *location)
{
int idx;
struct dive *dive;
m_selectedDiveIds.clear();
QGeoCoordinate locationCoord = location->coordinate();
for_each_dive (idx, dive) {
struct dive_site *ds = get_dive_site_for_dive(dive);
if (!dive_site_has_gps_location(ds))
continue;
const qreal latitude = ds->latitude.udeg * 0.000001;
const qreal longitude = ds->longitude.udeg * 0.000001;
QGeoCoordinate dsCoord(latitude, longitude);
if (locationCoord.distanceTo(dsCoord) < m_smallCircleRadius)
m_selectedDiveIds.append(idx);
}
emit selectedDivesChanged(m_selectedDiveIds);
}
void MapWidgetHelper::selectVisibleLocations()
{
int idx;
struct dive *dive;
bool selectedFirst = false;
m_selectedDiveIds.clear();
for_each_dive (idx, dive) {
struct dive_site *ds = get_dive_site_for_dive(dive);
if (!dive_site_has_gps_location(ds))
continue;
const qreal latitude = ds->latitude.udeg * 0.000001;
const qreal longitude = ds->longitude.udeg * 0.000001;
QGeoCoordinate dsCoord(latitude, longitude);
QPointF point;
QMetaObject::invokeMethod(m_map, "fromCoordinate", Q_RETURN_ARG(QPointF, point),
Q_ARG(QGeoCoordinate, dsCoord));
if (!qIsNaN(point.x())) {
if (!selectedFirst) {
m_mapLocationModel->setSelectedUuid(ds->uuid, false);
selectedFirst = true;
}
m_selectedDiveIds.append(idx);
}
}
emit selectedDivesChanged(m_selectedDiveIds);
}
/*
* Based on a 2D Map widget circle with center "coord" and radius SMALL_CIRCLE_RADIUS_PX,
* obtain a "small circle" with radius m_smallCircleRadius in meters:
* https://en.wikipedia.org/wiki/Circle_of_a_sphere
*
* The idea behind this circle is to be able to select multiple nearby dives, when clicking on
* the map. This code can be in QML, but it is in C++ instead for performance reasons.
*
* This can be made faster with an exponential regression [a * exp(b * x)], with a pretty
* decent R-squared, but it becomes bound to map provider zoom level mappings and the
* SMALL_CIRCLE_RADIUS_PX value, which makes the code hard to maintain.
*/
void MapWidgetHelper::calculateSmallCircleRadius(QGeoCoordinate coord)
{
QPointF point;
QMetaObject::invokeMethod(m_map, "fromCoordinate", Q_RETURN_ARG(QPointF, point),
Q_ARG(QGeoCoordinate, coord));
QPointF point2(point.x() + SMALL_CIRCLE_RADIUS_PX, point.y());
QGeoCoordinate coord2;
QMetaObject::invokeMethod(m_map, "toCoordinate", Q_RETURN_ARG(QGeoCoordinate, coord2),
Q_ARG(QPointF, point2));
m_smallCircleRadius = coord2.distanceTo(coord);
}
void MapWidgetHelper::copyToClipboardCoordinates(QGeoCoordinate coord, bool formatTraditional)
{
bool savep = prefs.coordinates_traditional;
prefs.coordinates_traditional = formatTraditional;
const int lat = lrint(1000000.0 * coord.latitude());
const int lon = lrint(1000000.0 * coord.longitude());
const char *coordinates = printGPSCoords(lat, lon);
QApplication::clipboard()->setText(QString(coordinates), QClipboard::Clipboard);
free((void *)coordinates);
prefs.coordinates_traditional = savep;
}
void MapWidgetHelper::updateCurrentDiveSiteCoordinates(quint32 uuid, QGeoCoordinate coord)
{
MapLocation *loc = m_mapLocationModel->getMapLocationForUuid(uuid);
if (loc)
loc->setCoordinate(coord);
displayed_dive_site.latitude.udeg = lrint(coord.latitude() * 1000000.0);
displayed_dive_site.longitude.udeg = lrint(coord.longitude() * 1000000.0);
emit coordinatesChanged();
}
bool MapWidgetHelper::editMode()
{
return m_editMode;
}
void MapWidgetHelper::setEditMode(bool editMode)
{
m_editMode = editMode;
MapLocation *exists = m_mapLocationModel->getMapLocationForUuid(displayed_dive_site.uuid);
// if divesite uuid doesn't exist in the model, add a new MapLocation.
if (editMode && !exists) {
QGeoCoordinate coord(0.0, 0.0);
m_mapLocationModel->add(new MapLocation(displayed_dive_site.uuid, coord,
QString(displayed_dive_site.name)));
QMetaObject::invokeMethod(m_map, "centerOnCoordinate",
Q_ARG(QVariant, QVariant::fromValue(coord)));
}
emit editModeChanged();
}
QString MapWidgetHelper::pluginObject()
{
QString str;
str += "import QtQuick 2.0;";
str += "import QtLocation 5.3;";
str += "Plugin {";
str += " id: mapPlugin;";
str += " name: 'googlemaps';";
str += " PluginParameter { name: 'googlemaps.maps.language'; value: '%lang%' }";
str += " PluginParameter { name: 'googlemaps.cachefolder'; value: '%cacheFolder%' }";
str += " Component.onCompleted: {";
str += " if (availableServiceProviders.indexOf(name) === -1) {";
str += " console.warn('MapWidget.qml: cannot find a plugin named: ' + name);";
str += " }";
str += " }";
str += "}";
QString lang = uiLanguage(NULL).replace('_', '-');
str.replace("%lang%", lang);
QString cacheFolder = QString(system_default_directory()).append("/googlemaps");
str.replace("%cacheFolder%", cacheFolder.replace("\\", "/"));
return str;
}