subsurface/core/gpslocation.cpp
Berthold Stoeger 8f80129bac cleanup: create common QDateTime -> timestamp conversion function
In analogy to the timestamp -> QDateTime conversion, create a
common function.
1) For symmetry with the opposite conversion.
2) To remove numerous inconsistencies.
3) To remove use of the deprecated QDateTime::toTime_t() function.

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2020-05-22 12:31:06 -07:00

418 lines
14 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include "core/gpslocation.h"
#include "core/divesite.h"
#include "core/dive.h"
#include "qt-models/gpslistmodel.h"
#include "core/pref.h"
#include "core/qthelper.h"
#include "core/errorhelper.h"
#include "core/settings/qPrefLocationService.h"
#include <time.h>
#include <unistd.h>
#include <QDebug>
#include <QVariant>
#include <QUrlQuery>
#include <QApplication>
#include <QTimer>
GpsLocation *GpsLocation::m_Instance = NULL;
GpsLocation::GpsLocation(void (*showMsgCB)(const char *), QObject *parent) :
QObject(parent),
m_GpsSource(0),
waitingForPosition(false),
haveSource(UNKNOWN)
{
Q_ASSERT_X(m_Instance == NULL, "GpsLocation", "GpsLocation recreated");
m_Instance = this;
showMessageCB = showMsgCB;
// create a QSettings object that's separate from the main application settings
geoSettings = new QSettings(QSettings::NativeFormat, QSettings::UserScope,
QStringLiteral("org.subsurfacedivelog"), QStringLiteral("subsurfacelocation"), this);
userAgent = getUserAgent();
(void)getGpsSource();
loadFromStorage();
// register changes in time threshold
connect(qPrefLocationService::instance(), SIGNAL(time_thresholdChanged(int)), this, SLOT(setGpsTimeThreshold(int)));
}
GpsLocation *GpsLocation::instance()
{
Q_ASSERT(m_Instance != NULL);
return m_Instance;
}
bool GpsLocation::hasInstance()
{
return m_Instance != NULL;
}
GpsLocation::~GpsLocation()
{
m_Instance = NULL;
}
void GpsLocation::setGpsTimeThreshold(int seconds)
{
if (m_GpsSource) {
m_GpsSource->setUpdateInterval(seconds * 1000);
status(QStringLiteral("Set GPS service update interval to %1 s").arg(m_GpsSource->updateInterval() / 1000));
}
}
QGeoPositionInfoSource *GpsLocation::getGpsSource()
{
if (haveSource == NOGPS)
return 0;
if (!m_GpsSource) {
m_GpsSource = QGeoPositionInfoSource::createDefaultSource(this);
if (m_GpsSource != 0) {
#if defined(Q_OS_IOS)
// at least Qt 5.6.0 isn't doing things right on iOS - it MUST check for permission before
// accessing the position source
// I have a hacked version of Qt 5.6.0 that I will build the iOS binaries with for now;
// this test below righ after creating the source checks if the location service is disabled
// and set's an error right when the position source is created to indicate this
if (m_GpsSource->error() == QGeoPositionInfoSource::AccessError) {
haveSource = NOGPS;
emit haveSourceChanged();
m_GpsSource = NULL;
return NULL;
}
#endif
haveSource = (m_GpsSource->supportedPositioningMethods() & QGeoPositionInfoSource::SatellitePositioningMethods) ? HAVEGPS : NOGPS;
emit haveSourceChanged();
#ifndef SUBSURFACE_MOBILE
if (verbose)
#endif
status(QStringLiteral("Created position source %1").arg(m_GpsSource->sourceName()));
connect(m_GpsSource, SIGNAL(positionUpdated(QGeoPositionInfo)), this, SLOT(newPosition(QGeoPositionInfo)));
connect(m_GpsSource, SIGNAL(updateTimeout()), this, SLOT(updateTimeout()));
connect(m_GpsSource, SIGNAL(error(QGeoPositionInfoSource::Error)), this, SLOT(positionSourceError(QGeoPositionInfoSource::Error)));
setGpsTimeThreshold(prefs.time_threshold);
} else {
#ifdef SUBSURFACE_MOBILE
status("don't have GPS source");
#endif
haveSource = NOGPS;
emit haveSourceChanged();
}
}
return m_GpsSource;
}
bool GpsLocation::hasLocationsSource()
{
(void)getGpsSource();
return haveSource == HAVEGPS;
}
void GpsLocation::serviceEnable(bool toggle)
{
QGeoPositionInfoSource *gpsSource = getGpsSource();
if (haveSource != HAVEGPS) {
if (toggle)
status("Can't start location service, no location source available");
return;
}
if (toggle) {
gpsSource->startUpdates();
status(QStringLiteral("Starting Subsurface GPS service with update interval %1").arg(gpsSource->updateInterval()));
} else {
gpsSource->stopUpdates();
status("Stopping Subsurface GPS service");
}
}
QString GpsLocation::currentPosition()
{
qDebug() << "current position requested";
if (!hasLocationsSource())
return tr("Unknown GPS location (no GPS source)");
if (m_trackers.count()) {
QDateTime lastFixTime = timestampToDateTime(m_trackers.lastKey() - gettimezoneoffset(m_trackers.lastKey()));
QDateTime now = QDateTime::currentDateTime();
int delta = lastFixTime.secsTo(now);
qDebug() << "lastFixTime" << lastFixTime.toString() << "now" << now.toString() << "delta" << delta;
if (delta < 300) {
// we can simply use the last position that we tracked
gpsTracker gt = m_trackers.last();
QString gpsString = printGPSCoords(&gt.location);
qDebug() << "returning last position" << gpsString;
return gpsString;
} else {
qDebug() << "last position saved was too old" << lastFixTime.toString();
}
}
qDebug() << "requesting new GPS position";
m_GpsSource->requestUpdate();
// ok, we need to get the current position and somehow in the callback update the location in the QML UI
// punting right now
waitingForPosition = true;
return GPS_CURRENT_POS;
}
void GpsLocation::newPosition(QGeoPositionInfo pos)
{
int64_t lastTime = 0;
QGeoCoordinate lastCoord;
int nr = m_trackers.count();
if (nr) {
gpsTracker gt = m_trackers.last();
lastCoord.setLatitude(gt.location.lat.udeg / 1000000.0);
lastCoord.setLongitude(gt.location.lon.udeg / 1000000.0);
lastTime = gt.when;
}
// if we are waiting for a position update or
// if we have no record stored or if at least the configured minimum
// time has passed or we moved at least the configured minimum distance
int64_t delta = dateTimeToTimestamp(pos.timestamp()) + gettimezoneoffset() - lastTime;
if (!nr || waitingForPosition || delta > prefs.time_threshold ||
lastCoord.distanceTo(pos.coordinate()) > prefs.distance_threshold) {
QString msg = QStringLiteral("received new position %1 after delta %2 threshold %3 (now %4 last %5)");
status(qPrintable(msg.arg(pos.coordinate().toString()).arg(delta).arg(prefs.time_threshold).arg(pos.timestamp().toString()).arg(timestampToDateTime(lastTime).toString())));
waitingForPosition = false;
acquiredPosition();
gpsTracker gt;
gt.when = dateTimeToTimestamp(pos.timestamp());
gt.when += gettimezoneoffset(gt.when);
gt.location = create_location(pos.coordinate().latitude(), pos.coordinate().longitude());
addFixToStorage(gt);
gpsTracker gtNew = m_trackers.last();
qDebug() << "newest fix is now at" << timestampToDateTime(gtNew.when - gettimezoneoffset(gtNew.when)).toString();
}
}
void GpsLocation::updateTimeout()
{
status("request to get new position timed out");
}
void GpsLocation::positionSourceError(QGeoPositionInfoSource::Error)
{
status("error receiving a GPS location");
haveSource = NOGPS;
emit haveSourceChanged();
}
void GpsLocation::status(QString msg)
{
if (showMessageCB)
(*showMessageCB)(qPrintable(msg));
else
qDebug() << msg;
}
int GpsLocation::getGpsNum() const
{
return m_trackers.count();
}
#define SAME_GROUP 6 * 3600 /* six hours */
#define ADD_LOCATION(_dive, _gpsfix, _mark) \
{ \
fixes.push_back( { _dive, _gpsfix.location, _gpsfix.name } ); \
last = _mark; \
}
std::vector<DiveAndLocation> GpsLocation::getLocations()
{
int i;
int last = 0;
int cnt = m_trackers.count();
std::vector<DiveAndLocation> fixes;
if (cnt == 0)
return fixes;
// create a table with the GPS information
QList<struct gpsTracker> gpsTable = m_trackers.values();
// now walk the dive table and see if we can fill in missing gps data
struct dive *d;
for_each_dive(i, d) {
if (dive_has_gps_location(d))
continue;
for (int j = last; j < cnt; j++) {
if (time_during_dive_with_offset(d, gpsTable[j].when, SAME_GROUP)) {
if (verbose)
qDebug() << "processing gpsFix @" << get_dive_date_string(gpsTable[j].when) <<
"which is withing six hours of dive from" <<
get_dive_date_string(d->when) << "until" <<
get_dive_date_string(dive_endtime(d));
/*
* If position is fixed during dive. This is the good one.
* Asign and mark position, and end gps_location loop
*/
if (time_during_dive_with_offset(d, gpsTable[j].when, 0)) {
if (verbose)
qDebug() << "gpsFix is during the dive, pick that one";
ADD_LOCATION(d, gpsTable[j], j);
break;
} else {
/*
* If it is not, check if there are more position fixes in SAME_GROUP range
*/
if (j + 1 < cnt && time_during_dive_with_offset(d, gpsTable[j+1].when, SAME_GROUP)) {
if (verbose)
qDebug() << "look at the next gps fix @" << get_dive_date_string(gpsTable[j+1].when);
/* we know the gps fixes are sorted; if they are both before the dive, ignore the first,
* if theay are both after the dive, take the first,
* if the first is before and the second is after, take the closer one */
if (gpsTable[j+1].when < d->when) {
if (verbose)
qDebug() << "which is closer to the start of the dive, do continue with that";
continue;
} else if (gpsTable[j].when > dive_endtime(d)) {
if (verbose)
qDebug() << "which is even later after the end of the dive, so pick the previous one";
ADD_LOCATION(d, gpsTable[j], j);
break;
} else {
/* ok, gpsFix is before, nextgpsFix is after */
if (d->when - gpsTable[j].when <= gpsTable[j+1].when - dive_endtime(d)) {
if (verbose)
qDebug() << "pick the one before as it's closer to the start";
ADD_LOCATION(d, gpsTable[j], j);
break;
} else {
if (verbose)
qDebug() << "pick the one after as it's closer to the start";
ADD_LOCATION(d, gpsTable[j + 1], j + 1);
break;
}
}
/*
* If no more positions in range, the actual is the one. Asign, mark and end loop.
*/
} else {
if (verbose)
qDebug() << "which seems to be the best one for this dive, so pick it";
ADD_LOCATION(d, gpsTable[j], j);
break;
}
}
} else {
/* If position is out of SAME_GROUP range and in the future, mark position for
* next dive iteration and end the gps_location loop
*/
if (gpsTable[j].when >= dive_endtime(d) + SAME_GROUP) {
last = j;
break;
}
}
}
}
return fixes;
}
QMap<qint64, gpsTracker> GpsLocation::currentGPSInfo() const
{
return m_trackers;
}
void GpsLocation::loadFromStorage()
{
int nr = geoSettings->value(QStringLiteral("count")).toInt();
for (int i = 0; i < nr; i++) {
struct gpsTracker gt;
gt.when = geoSettings->value(QStringLiteral("gpsFix%1_time").arg(i)).toLongLong();
gt.location.lat.udeg = geoSettings->value(QStringLiteral("gpsFix%1_lat").arg(i)).toInt();
gt.location.lon.udeg = geoSettings->value(QStringLiteral("gpsFix%1_lon").arg(i)).toInt();
gt.name = geoSettings->value(QStringLiteral("gpsFix%1_name").arg(i)).toString();
gt.idx = i;
m_trackers.insert(gt.when, gt);
}
}
void GpsLocation::replaceFixToStorage(gpsTracker &gt)
{
if (!m_trackers.keys().contains(gt.when)) {
addFixToStorage(gt);
return;
}
gpsTracker replacedTracker = m_trackers.value(gt.when);
geoSettings->setValue(QStringLiteral("gpsFix%1_time").arg(replacedTracker.idx), gt.when);
geoSettings->setValue(QStringLiteral("gpsFix%1_lat").arg(replacedTracker.idx), gt.location.lat.udeg);
geoSettings->setValue(QStringLiteral("gpsFix%1_lon").arg(replacedTracker.idx), gt.location.lon.udeg);
geoSettings->setValue(QStringLiteral("gpsFix%1_name").arg(replacedTracker.idx), gt.name);
replacedTracker.location = gt.location;
replacedTracker.name = gt.name;
}
void GpsLocation::addFixToStorage(gpsTracker &gt)
{
int nr = m_trackers.count();
geoSettings->setValue("count", nr + 1);
geoSettings->setValue(QStringLiteral("gpsFix%1_time").arg(nr), gt.when);
geoSettings->setValue(QStringLiteral("gpsFix%1_lat").arg(nr), gt.location.lat.udeg);
geoSettings->setValue(QStringLiteral("gpsFix%1_lon").arg(nr), gt.location.lon.udeg);
geoSettings->setValue(QStringLiteral("gpsFix%1_name").arg(nr), gt.name);
gt.idx = nr;
geoSettings->sync();
m_trackers.insert(gt.when, gt);
}
void GpsLocation::deleteFixFromStorage(gpsTracker &gt)
{
qint64 when = gt.when;
int cnt = m_trackers.count();
if (cnt == 0 || !m_trackers.keys().contains(when)) {
qDebug() << "no gps fix with timestamp" << when;
return;
}
if (geoSettings->value(QStringLiteral("gpsFix%1_time").arg(gt.idx)).toLongLong() != when) {
qDebug() << "uh oh - index for tracker has gotten out of sync...";
return;
}
if (cnt > 1) {
// now we move the last tracker into that spot (so our settings stay consecutive)
// and delete the last settings entry
when = geoSettings->value(QStringLiteral("gpsFix%1_time").arg(cnt - 1)).toLongLong();
struct gpsTracker movedTracker = m_trackers.value(when);
movedTracker.idx = gt.idx;
m_trackers.remove(movedTracker.when);
m_trackers.insert(movedTracker.when, movedTracker);
geoSettings->setValue(QStringLiteral("gpsFix%1_time").arg(movedTracker.idx), when);
geoSettings->setValue(QStringLiteral("gpsFix%1_lat").arg(movedTracker.idx), movedTracker.location.lat.udeg);
geoSettings->setValue(QStringLiteral("gpsFix%1_lon").arg(movedTracker.idx), movedTracker.location.lon.udeg);
geoSettings->setValue(QStringLiteral("gpsFix%1_name").arg(movedTracker.idx), movedTracker.name);
geoSettings->remove(QStringLiteral("gpsFix%1_lat").arg(cnt - 1));
geoSettings->remove(QStringLiteral("gpsFix%1_lon").arg(cnt - 1));
geoSettings->remove(QStringLiteral("gpsFix%1_time").arg(cnt - 1));
geoSettings->remove(QStringLiteral("gpsFix%1_name").arg(cnt - 1));
}
geoSettings->setValue("count", cnt - 1);
geoSettings->sync();
m_trackers.remove(gt.when);
}
void GpsLocation::deleteGpsFix(qint64 when)
{
auto it = m_trackers.find(when);
if (it == m_trackers.end()) {
qWarning() << "GpsLocation::deleteGpsFix(): can't find tracker for timestamp " << when;
return;
}
struct gpsTracker deletedTracker = *it;
deleteFixFromStorage(deletedTracker);
m_deletedTrackers.append(deletedTracker);
}
#ifdef SUBSURFACE_MOBILE
void GpsLocation::clearGpsData()
{
m_trackers.clear();
geoSettings->clear();
geoSettings->sync();
}
#endif
void GpsLocation::postError(QNetworkReply::NetworkError)
{
status(QStringLiteral("error when sending a GPS fix: %1").arg(reply->errorString()));
}