void ShiftTimesDialog::showEvent(QShowEvent *event)
{
ui.timeEdit->setTime(QTime(0, 0, 0, 0));
when = get_times(); //get time of first selected dive
ui.currentTime->setText(get_dive_date_string(when));
ui.shiftedTime->setText(get_dive_date_string(when));
}
MobileDive::MobileDive(dive *d)
{
m_thisDive = d;
setDiveNumber(QString::number(d->number));
setDiveId(QString::number(d->id));
dive_trip *trip = d->divetrip;
if(trip) {
//trip is valid
setTrip(trip->location);
}
setDate(get_dive_date_string(d->when));
setDepth(get_depth_string(d->maxdepth));
setDuration(get_dive_duration_string(d->duration.seconds, "h:","min"));
setupDiveTempDetails();
weight_t tw = { total_weight(d) };
setWeight(weight_string(tw.grams));
setSuit(QString(d->suit));
setCylinder(QString(d->cylinder[0].type.description));
setSac(QString::number(d->sac));
setLocation(get_dive_location(d));
setNotes(d->notes);
setBuddy(d->buddy);
setDivemaster(d->divemaster);
}
QString QMLManager::getDate(const QString& diveId)
{
int dive_id = diveId.toInt();
struct dive *d = get_dive_by_uniq_id(dive_id);
QString datestring;
if (d)
datestring = get_dive_date_string(d->when);
return datestring;
}
void ShiftTimesDialog::changeTime()
{
int amount;
amount = ui.timeEdit->time().hour() * 3600 + ui.timeEdit->time().minute() * 60;
if (ui.backwards->isChecked())
amount *= -1;
ui.shiftedTime->setText(get_dive_date_string(amount + when));
}
QString DiveItem::displayDate() const
{
return get_dive_date_string(dive->when);
}
QVariant DiveItem::data(int column, int role) const
{
QVariant retVal;
switch (role) {
case Qt::TextAlignmentRole:
switch (column) {
case DATE: /* fall through */
case SUIT: /* fall through */
case LOCATION:
retVal = Qt::AlignLeft;
break;
default:
retVal = Qt::AlignRight;
break;
}
break;
case DiveTripModel::SORT_ROLE:
switch (column) {
case NR: retVal = (qulonglong) dive->when; break;
case DATE: retVal = (qulonglong) dive->when; break;
case RATING: retVal = dive->rating; break;
case DEPTH: retVal = dive->maxdepth.mm; break;
case DURATION: retVal = dive->duration.seconds; break;
case TEMPERATURE: retVal = dive->watertemp.mkelvin; break;
case TOTALWEIGHT: retVal = total_weight(dive); break;
case SUIT: retVal = QString(dive->suit); break;
case CYLINDER: retVal = QString(dive->cylinder[0].type.description); break;
case NITROX: retVal = nitrox_sort_value(dive); break;
case SAC: retVal = dive->sac; break;
case OTU: retVal = dive->otu; break;
case MAXCNS: retVal = dive->maxcns; break;
case LOCATION: retVal = QString(dive->location); break;
}
break;
case Qt::DisplayRole:
switch (column) {
case NR: retVal = dive->number; break;
case DATE: retVal = QString(get_dive_date_string(dive->when)); break;
case DEPTH: retVal = displayDepth(); break;
case DURATION: retVal = displayDuration(); break;
case TEMPERATURE: retVal = displayTemperature(); break;
case TOTALWEIGHT: retVal = displayWeight(); break;
case SUIT: retVal = QString(dive->suit); break;
case CYLINDER: retVal = QString(dive->cylinder[0].type.description); break;
case NITROX: retVal = QString(get_nitrox_string(dive)); break;
case SAC: retVal = displaySac(); break;
case OTU: retVal = dive->otu; break;
case MAXCNS: retVal = dive->maxcns; break;
case LOCATION: retVal = QString(dive->location); break;
}
break;
}
if (role == DiveTripModel::STAR_ROLE)
retVal = dive->rating;
if (role == DiveTripModel::DIVE_ROLE)
retVal = QVariant::fromValue<void*>(dive);
return retVal;
}
//TODO: C Code. static functions are not good if we plan to have a test for them.
static bool merge_locations_into_dives(void)
{
int i, j, tracer=0, changed=0;
struct dive *gpsfix, *nextgpsfix, *dive;
sort_table(&gps_location_table);
for_each_dive (i, dive) {
if (!dive_has_gps_location(dive)) {
for (j = tracer; (gpsfix = get_dive_from_table(j, &gps_location_table)) !=NULL; j++) {
if (time_during_dive_with_offset(dive, gpsfix->when, SAME_GROUP)) {
qDebug() << "processing gpsfix @" << get_dive_date_string(gpsfix->when) << "which is withing six hours of dive from" <<
get_dive_date_string(dive->when) << "until" << get_dive_date_string(dive->when + dive->duration.seconds);
/*
* 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(dive, gpsfix->when, 0)) {
qDebug() << "gpsfix is during the dive, pick that one";
copy_gps_location(gpsfix, dive);
changed++;
tracer = j;
break;
} else {
/*
* If it is not, check if there are more position fixes in SAME_GROUP range
*/
if ((nextgpsfix = get_dive_from_table(j + 1, &gps_location_table)) &&
time_during_dive_with_offset(dive, nextgpsfix->when, SAME_GROUP)) {
qDebug() << "look at the next gps fix @" << get_dive_date_string(nextgpsfix->when);
/* first let's test if this one is during the dive */
if (time_during_dive_with_offset(dive, nextgpsfix->when, 0)) {
qDebug() << "which is during the dive, pick that one";
copy_gps_location(nextgpsfix, dive);
changed++;
tracer = j + 1;
break;
}
/* 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 (nextgpsfix->when < dive->when) {
qDebug() << "which is closer to the start of the dive, do continue with that";
continue;
} else if (gpsfix->when > dive->when + dive->duration.seconds) {
qDebug() << "which is even later after the end of the dive, so pick the previous one";
copy_gps_location(gpsfix, dive);
changed++;
tracer = j;
break;
} else {
/* ok, gpsfix is before, nextgpsfix is after */
if (dive->when - gpsfix->when <= nextgpsfix->when - (dive->when + dive->duration.seconds)) {
qDebug() << "pick the one before as it's closer to the start";
copy_gps_location(gpsfix, dive);
changed++;
tracer = j;
break;
} else {
qDebug() << "pick the one after as it's closer to the start";
copy_gps_location(nextgpsfix, dive);
changed++;
tracer = j + 1;
break;
}
}
/*
* If no more positions in range, the actual is the one. Asign, mark and end loop.
*/
} else {
qDebug() << "which seems to be the best one for this dive, so pick it";
copy_gps_location(gpsfix, dive);
changed++;
tracer = 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 (gpsfix->when >= dive->when + dive->duration.seconds + SAME_GROUP) {
tracer = j;
break;
}
}
}
}
}
return changed > 0;
}
QString DiveItem::displayDate() const
{
struct dive *dive = get_dive_by_uniq_id(diveId);
return get_dive_date_string(dive->when);
}
bool GpsLocation::applyLocations()
{
int i;
bool changed = false;
int last = 0;
int cnt = m_trackers.count();
if (cnt == 0)
return false;
// 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";
SET_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";
SET_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";
SET_LOCATION(d, gpsTable[j], j);
break;
} else {
if (verbose)
qDebug() << "pick the one after as it's closer to the start";
SET_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";
SET_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;
}
}
}
}
if (changed)
mark_divelist_changed(true);
return changed;
}
// update the dive and return the notes field, stripped of the HTML junk
void QMLManager::commitChanges(QString diveId, QString date, QString location, QString gps, QString duration, QString depth,
QString airtemp, QString watertemp, QString suit, QString buddy, QString diveMaster, QString weight, QString notes,
QString startpressure, QString endpressure, QString gasmix)
{
#define DROP_EMPTY_PLACEHOLDER(_s) if ((_s) == QLatin1Literal("--")) (_s).clear()
DROP_EMPTY_PLACEHOLDER(location);
DROP_EMPTY_PLACEHOLDER(duration);
DROP_EMPTY_PLACEHOLDER(depth);
DROP_EMPTY_PLACEHOLDER(airtemp);
DROP_EMPTY_PLACEHOLDER(watertemp);
DROP_EMPTY_PLACEHOLDER(suit);
DROP_EMPTY_PLACEHOLDER(buddy);
DROP_EMPTY_PLACEHOLDER(diveMaster);
DROP_EMPTY_PLACEHOLDER(weight);
DROP_EMPTY_PLACEHOLDER(gasmix);
DROP_EMPTY_PLACEHOLDER(startpressure);
DROP_EMPTY_PLACEHOLDER(endpressure);
DROP_EMPTY_PLACEHOLDER(notes);
#undef DROP_EMPTY_PLACEHOLDER
struct dive *d = get_dive_by_uniq_id(diveId.toInt());
// notes comes back as rich text - let's convert this into plain text
QTextDocument doc;
doc.setHtml(notes);
notes = doc.toPlainText();
if (!d) {
qDebug() << "don't touch this... no dive";
return;
}
bool diveChanged = false;
bool needResort = false;
invalidate_dive_cache(d);
if (date != get_dive_date_string(d->when)) {
diveChanged = needResort = true;
QDateTime newDate;
// what a pain - Qt will not parse dates if the day of the week is incorrect
// so if the user changed the date but didn't update the day of the week (most likely behavior, actually),
// we need to make sure we don't try to parse that
QString format(QString(prefs.date_format) + QChar(' ') + prefs.time_format);
if (format.contains(QLatin1String("ddd")) || format.contains(QLatin1String("dddd"))) {
QString dateFormatToDrop = format.contains(QLatin1String("ddd")) ? QStringLiteral("ddd") : QStringLiteral("dddd");
QDateTime ts;
QLocale loc = getLocale();
ts.setMSecsSinceEpoch(d->when * 1000L);
QString drop = loc.toString(ts.toUTC(), dateFormatToDrop);
format.replace(dateFormatToDrop, "");
date.replace(drop, "");
}
newDate = QDateTime::fromString(date, format);
if (!newDate.isValid()) {
qDebug() << "unable to parse date" << date << "with the given format" << format;
QRegularExpression isoDate("\\d+-\\d+-\\d+[^\\d]+\\d+:\\d+");
if (date.contains(isoDate)) {
newDate = QDateTime::fromString(date, "yyyy-M-d h:m:s");
if (newDate.isValid())
goto parsed;
newDate = QDateTime::fromString(date, "yy-M-d h:m:s");
if (newDate.isValid())
goto parsed;
}
QRegularExpression isoDateNoSecs("\\d+-\\d+-\\d+[^\\d]+\\d+");
if (date.contains(isoDateNoSecs)) {
newDate = QDateTime::fromString(date, "yyyy-M-d h:m");
if (newDate.isValid())
goto parsed;
newDate = QDateTime::fromString(date, "yy-M-d h:m");
if (newDate.isValid())
goto parsed;
}
QRegularExpression usDate("\\d+/\\d+/\\d+[^\\d]+\\d+:\\d+:\\d+");
if (date.contains(usDate)) {
newDate = QDateTime::fromString(date, "M/d/yyyy h:m:s");
if (newDate.isValid())
goto parsed;
newDate = QDateTime::fromString(date, "M/d/yy h:m:s");
if (newDate.isValid())
goto parsed;
newDate = QDateTime::fromString(date.toLower(), "M/d/yyyy h:m:sap");
if (newDate.isValid())
goto parsed;
newDate = QDateTime::fromString(date.toLower(), "M/d/yy h:m:sap");
if (newDate.isValid())
goto parsed;
}
QRegularExpression usDateNoSecs("\\d+/\\d+/\\d+[^\\d]+\\d+:\\d+");
if (date.contains(usDateNoSecs)) {
newDate = QDateTime::fromString(date, "M/d/yyyy h:m");
if (newDate.isValid())
goto parsed;
newDate = QDateTime::fromString(date, "M/d/yy h:m");
if (newDate.isValid())
goto parsed;
newDate = QDateTime::fromString(date.toLower(), "M/d/yyyy h:map");
if (newDate.isValid())
goto parsed;
newDate = QDateTime::fromString(date.toLower(), "M/d/yy h:map");
if (newDate.isValid())
goto parsed;
}
QRegularExpression leDate("\\d+\\.\\d+\\.\\d+[^\\d]+\\d+:\\d+:\\d+");
if (date.contains(leDate)) {
newDate = QDateTime::fromString(date, "d.M.yyyy h:m:s");
if (newDate.isValid())
goto parsed;
newDate = QDateTime::fromString(date, "d.M.yy h:m:s");
if (newDate.isValid())
goto parsed;
}
QRegularExpression leDateNoSecs("\\d+\\.\\d+\\.\\d+[^\\d]+\\d+:\\d+");
if (date.contains(leDateNoSecs)) {
newDate = QDateTime::fromString(date, "d.M.yyyy h:m");
if (newDate.isValid())
goto parsed;
newDate = QDateTime::fromString(date, "d.M.yy h:m");
if (newDate.isValid())
goto parsed;
}
}
parsed:
if (newDate.isValid()) {
// stupid Qt... two digit years are always 19xx - WTF???
// so if adding a hundred years gets you into something before a year from now...
// add a hundred years.
if (newDate.addYears(100) < QDateTime::currentDateTime().addYears(1))
newDate = newDate.addYears(100);
d->dc.when = d->when = newDate.toMSecsSinceEpoch() / 1000 + gettimezoneoffset(newDate.toMSecsSinceEpoch() / 1000);
} else {
qDebug() << "none of our parsing attempts worked for the date string";
}
}
struct dive_site *ds = get_dive_site_by_uuid(d->dive_site_uuid);
char *locationtext = NULL;
if (ds)
locationtext = ds->name;
if (!same_string(locationtext, qPrintable(location))) {
diveChanged = true;
// this is not ideal - and it's missing the gps information
// but for now let's just create a new dive site
ds = get_dive_site_by_uuid(create_dive_site(qPrintable(location), d->when));
d->dive_site_uuid = ds->uuid;
}
if (!gps.isEmpty()) {
QString gpsString = getCurrentPosition();
if (gpsString != QString("waiting for the next gps location")) {
qDebug() << "from commitChanges call to getCurrentPosition returns" << gpsString;
double lat, lon;
if (parseGpsText(qPrintable(gpsString), &lat, &lon)) {
struct dive_site *ds = get_dive_site_by_uuid(d->dive_site_uuid);
if (ds) {
ds->latitude.udeg = lat * 1000000;
ds->longitude.udeg = lon * 1000000;
} else {
degrees_t latData, lonData;
latData.udeg = lat;
lonData.udeg = lon;
d->dive_site_uuid = create_dive_site_with_gps("new site", latData, lonData, d->when);
}
qDebug() << "set up dive site with new GPS data";
}
} else {
qDebug() << "still don't have a position - will need to implement some sort of callback";
}
}
if (get_dive_duration_string(d->duration.seconds, tr("h:"), tr("min")) != duration) {
diveChanged = true;
int h = 0, m = 0, s = 0;
QRegExp r1(QStringLiteral("(\\d*)\\s*%1[\\s,:]*(\\d*)\\s*%2[\\s,:]*(\\d*)\\s*%3").arg(tr("h")).arg(tr("min")).arg(tr("sec")), Qt::CaseInsensitive);
QRegExp r2(QStringLiteral("(\\d*)\\s*%1[\\s,:]*(\\d*)\\s*%2").arg(tr("h")).arg(tr("min")), Qt::CaseInsensitive);
QRegExp r3(QStringLiteral("(\\d*)\\s*%1").arg(tr("min")), Qt::CaseInsensitive);
QRegExp r4(QStringLiteral("(\\d*):(\\d*):(\\d*)"));
QRegExp r5(QStringLiteral("(\\d*):(\\d*)"));
QRegExp r6(QStringLiteral("(\\d*)"));
if (r1.indexIn(duration) >= 0) {
h = r1.cap(1).toInt();
m = r1.cap(2).toInt();
s = r1.cap(3).toInt();
} else if (r2.indexIn(duration) >= 0) {
h = r2.cap(1).toInt();
m = r2.cap(2).toInt();
} else if (r3.indexIn(duration) >= 0) {
m = r3.cap(1).toInt();
} else if (r4.indexIn(duration) >= 0) {
h = r4.cap(1).toInt();
m = r4.cap(2).toInt();
s = r4.cap(3).toInt();
} else if (r5.indexIn(duration) >= 0) {
h = r5.cap(1).toInt();
m = r5.cap(2).toInt();
} else if (r6.indexIn(duration) >= 0) {
m = r6.cap(1).toInt();
}
d->dc.duration.seconds = d->duration.seconds = h * 3600 + m * 60 + s;
if (same_string(d->dc.model, "manually added dive")) {
free(d->dc.sample);
d->dc.sample = 0;
d->dc.samples = 0;
} else {
qDebug() << "changing the duration on a dive that wasn't manually added - Uh-oh";
}
}
if (get_depth_string(d->maxdepth.mm, true, true) != depth) {
int depthValue = parseLengthToMm(depth);
// the QML code should stop negative depth, but massively huge depth can make
// the profile extremely slow or even run out of memory and crash, so keep
// the depth <= 500m
if (0 <= depthValue && depthValue <= 500000) {
diveChanged = true;
d->maxdepth.mm = depthValue;
if (same_string(d->dc.model, "manually added dive")) {
d->dc.maxdepth.mm = d->maxdepth.mm;
free(d->dc.sample);
d->dc.sample = 0;
d->dc.samples = 0;
}
}
}
if (get_temperature_string(d->airtemp, true) != airtemp) {
diveChanged = true;
d->airtemp.mkelvin = parseTemperatureToMkelvin(airtemp);
}
if (get_temperature_string(d->watertemp, true) != watertemp) {
diveChanged = true;
d->watertemp.mkelvin = parseTemperatureToMkelvin(watertemp);
}
// not sure what we'd do if there was more than one weight system
// defined - for now just ignore that case
if (weightsystem_none((void *)&d->weightsystem[1])) {
if (get_weight_string(d->weightsystem[0].weight, true) != weight) {
diveChanged = true;
d->weightsystem[0].weight.grams = parseWeightToGrams(weight);
}
}
// start and end pressures for first cylinder only
if (get_pressure_string(d->cylinder[0].start, true) != startpressure || get_pressure_string(d->cylinder[0].end, true) != endpressure) {
diveChanged = true;
d->cylinder[0].start.mbar = parsePressureToMbar(startpressure);
d->cylinder[0].end.mbar = parsePressureToMbar(endpressure);
if (d->cylinder[0].end.mbar > d->cylinder[0].start.mbar)
d->cylinder[0].end.mbar = d->cylinder[0].start.mbar;
}
// gasmix for first cylinder
if (get_gas_string(d->cylinder[0].gasmix) != gasmix) {
int o2 = parseGasMixO2(gasmix);
int he = parseGasMixHE(gasmix);
// the QML code SHOULD only accept valid gas mixes, but just to make sure
if (o2 >= 0 && o2 <= 1000 &&
he >= 0 && he <= 1000 &&
o2 + he <= 1000) {
diveChanged = true;
d->cylinder[0].gasmix.o2.permille = o2;
d->cylinder[0].gasmix.he.permille = he;
}
}
if (!same_string(d->suit, qPrintable(suit))) {
diveChanged = true;
free(d->suit);
d->suit = strdup(qPrintable(suit));
}
if (!same_string(d->buddy, qPrintable(buddy))) {
diveChanged = true;
free(d->buddy);
d->buddy = strdup(qPrintable(buddy));
}
if (!same_string(d->divemaster, qPrintable(diveMaster))) {
diveChanged = true;
free(d->divemaster);
d->divemaster = strdup(qPrintable(diveMaster));
}
if (!same_string(d->notes, qPrintable(notes))) {
diveChanged = true;
free(d->notes);
d->notes = strdup(qPrintable(notes));
}
// now that we have it all figured out, let's see what we need
// to update
DiveListModel *dm = DiveListModel::instance();
int oldModelIdx = dm->getDiveIdx(d->id);
int oldIdx = get_idx_by_uniq_id(d->id);
if (needResort) {
// we know that the only thing that might happen in a resort is that
// this one dive moves to a different spot in the dive list
sort_table(&dive_table);
int newIdx = get_idx_by_uniq_id(d->id);
if (newIdx != oldIdx) {
DiveObjectHelper *newDive = new DiveObjectHelper(d);
DiveListModel::instance()->removeDive(oldModelIdx);
DiveListModel::instance()->insertDive(oldModelIdx - (newIdx - oldIdx), newDive);
diveChanged = false; // because we already modified things
}
}
if (diveChanged) {
if (d->maxdepth.mm == d->dc.maxdepth.mm &&
d->maxdepth.mm > 0 &&
same_string(d->dc.model, "manually added dive") &&
d->dc.samples == 0) {
// so we have depth > 0, a manually added dive and no samples
// let's create an actual profile so the desktop version can work it
// first clear out the mean depth (or the fake_dc() function tries
// to be too clever
d->meandepth.mm = d->dc.meandepth.mm = 0;
d->dc = *fake_dc(&d->dc, true);
}
DiveListModel::instance()->updateDive(oldModelIdx, d);
}
if (diveChanged || needResort)
// we no longer save right away, but only the next time the app is not
// in the foreground (or when explicitly requested)
mark_divelist_changed(true);
}
const char *get_dive_date_c_string(timestamp_t when)
{
QString text = get_dive_date_string(when);
return strdup(text.toUtf8().data());
}
