#include "qthelper.h" #include "helpers.h" #include "gettextfromc.h" #include "statistics.h" #include "membuffer.h" #include "subsurfacesysinfo.h" #include "version.h" #include "divecomputer.h" #include "time.h" #include "gettextfromc.h" #include #include #include "file.h" #include "prefs-macros.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include const char *existing_filename; static QLocale loc; #define translate(_context, arg) trGettext(arg) static const QString DEGREE_SIGNS("dD" UTF8_DEGREE); #define EMPTY_DIVE_STRING "--" Dive::Dive() : m_number(-1), dive(NULL) { } Dive::~Dive() { } int Dive::number() const { return m_number; } int Dive::id() const { return m_id; } QString Dive::date() const { return m_date; } timestamp_t Dive::timestamp() const { return m_timestamp; } QString Dive::time() const { return m_time; } QString Dive::location() const { return m_location; } QString Dive::duration() const { return m_duration; } QString Dive::depth() const { return m_depth; } QString Dive::divemaster() const { return m_divemaster; } QString Dive::buddy() const { return m_buddy; } QString Dive::airTemp() const { return m_airTemp; } QString Dive::waterTemp() const { return m_waterTemp; } QString Dive::notes() const { return m_notes; } QString Dive::tags() const { return m_tags; } QString Dive::gas() const { return m_gas; } QString Dive::sac() const { return m_sac; } QString Dive::weights() const { QString str = ""; for (int i = 0; i < MAX_WEIGHTSYSTEMS; i++) { QString entry = m_weights.at(i); if (entry == EMPTY_DIVE_STRING) continue; str += QObject::tr("Weight %1: ").arg(i + 1) + entry + "; "; } return str; } QString Dive::weight(int idx) const { if (idx < 0 || idx > m_weights.size() - 1) return QString(EMPTY_DIVE_STRING); return m_weights.at(idx); } QString Dive::suit() const { return m_suit; } QString Dive::cylinders() const { QString str = ""; for (int i = 0; i < MAX_CYLINDERS; i++) { QString entry = m_cylinders.at(i); if (entry == EMPTY_DIVE_STRING) continue; str += QObject::tr("Cylinder %1: ").arg(i + 1) + entry + "; "; } return str; } QString Dive::cylinder(int idx) const { if (idx < 0 || idx > m_cylinders.size() - 1) return QString(EMPTY_DIVE_STRING); return m_cylinders.at(idx); } QString Dive::trip() const { return m_trip; } QString Dive::maxcns() const { return m_maxcns; } QString Dive::otu() const { return m_otu; } int Dive::rating() const { return m_rating; } void Dive::put_divemaster() { if (!dive->divemaster) m_divemaster = EMPTY_DIVE_STRING; else m_divemaster = dive->divemaster; } void Dive::put_date_time() { QDateTime localTime = QDateTime::fromTime_t(dive->when - gettimezoneoffset(displayed_dive.when)); localTime.setTimeSpec(Qt::UTC); m_date = localTime.date().toString(prefs.date_format); m_time = localTime.time().toString(prefs.time_format); } void Dive::put_timestamp() { m_timestamp = dive->when; } void Dive::put_location() { m_location = QString::fromUtf8(get_dive_location(dive)); if (m_location.isEmpty()) { m_location = EMPTY_DIVE_STRING; } } void Dive::put_depth() { m_depth = get_depth_string(dive->dc.maxdepth.mm, true, true); } void Dive::put_duration() { m_duration = get_dive_duration_string(dive->duration.seconds, QObject::tr("h:"), QObject::tr("min")); } void Dive::put_buddy() { if (!dive->buddy) m_buddy = EMPTY_DIVE_STRING; else m_buddy = dive->buddy; } void Dive::put_temp() { m_airTemp = get_temperature_string(dive->airtemp, true); m_waterTemp = get_temperature_string(dive->watertemp, true); if (m_airTemp.isEmpty()) { m_airTemp = EMPTY_DIVE_STRING; } if (m_waterTemp.isEmpty()) { m_waterTemp = EMPTY_DIVE_STRING; } } void Dive::put_notes() { m_notes = QString::fromUtf8(dive->notes); if (m_notes.isEmpty()) { m_notes = EMPTY_DIVE_STRING; return; } if (same_string(dive->dc.model, "planned dive")) { QTextDocument notes; QString notesFormatted = m_notes; #define _NOTES_BR "\n" notesFormatted = notesFormatted.replace("", "" _NOTES_BR); notesFormatted = notesFormatted.replace("
", "
" _NOTES_BR); notesFormatted = notesFormatted.replace("", "" _NOTES_BR); notesFormatted = notesFormatted.replace("", "" _NOTES_BR); notes.setHtml(notesFormatted); m_notes = notes.toPlainText(); m_notes.replace(_NOTES_BR, "
"); #undef _NOTES_BR } else { m_notes.replace("\n", "
"); } } void Dive::put_tags() { char buffer[256]; taglist_get_tagstring(dive->tag_list, buffer, 256); m_tags = QString(buffer); } void Dive::put_gas() { int added = 0; QString gas, gases; for (int i = 0; i < MAX_CYLINDERS; i++) { if (!is_cylinder_used(dive, i)) continue; gas = dive->cylinder[i].type.description; gas += QString(!gas.isEmpty() ? " " : "") + gasname(&dive->cylinder[i].gasmix); // if has a description and if such gas is not already present if (!gas.isEmpty() && gases.indexOf(gas) == -1) { if (added > 0) gases += QString(" / "); gases += gas; added++; } } m_gas = gases; } void Dive::put_sac() { if (dive->sac) { const char *unit; int decimal; double value = get_volume_units(dive->sac, &decimal, &unit); m_sac = QString::number(value, 'f', decimal).append(unit); } } static QString getFormattedWeight(struct dive *dive, unsigned int idx) { weightsystem_t *weight = &dive->weightsystem[idx]; if (!weight->description) return QString(EMPTY_DIVE_STRING); QString fmt = QString(weight->description); fmt += ", " + get_weight_string(weight->weight, true); return fmt; } void Dive::put_weight() { for (int i = 0; i < MAX_WEIGHTSYSTEMS; i++) m_weights << getFormattedWeight(dive, i); } void Dive::put_suit() { m_suit = QString(dive->suit); } static QString getFormattedCylinder(struct dive *dive, unsigned int idx) { cylinder_t *cyl = &dive->cylinder[idx]; const char *desc = cyl->type.description; if (!desc && idx > 0) return QString(EMPTY_DIVE_STRING); QString fmt = desc ? QString(desc) : QObject::tr("unknown"); fmt += ", " + get_volume_string(cyl->type.size, true, 0); fmt += ", " + get_pressure_string(cyl->type.workingpressure, true); fmt += ", " + get_pressure_string(cyl->start, false) + " - " + get_pressure_string(cyl->end, true); fmt += ", " + get_gas_string(cyl->gasmix); return fmt; } void Dive::put_cylinder() { for (int i = 0; i < MAX_CYLINDERS; i++) m_cylinders << getFormattedCylinder(dive, i); } void Dive::put_trip() { dive_trip *trip = dive->divetrip; if (trip) { m_trip = QString(trip->location); } } void Dive::put_maxcns() { m_maxcns = QString::number(dive->maxcns); } void Dive::put_otu() { m_otu = QString::number(dive->otu); } QString weight_string(int weight_in_grams) { QString str; if (get_units()->weight == units::KG) { int gr = weight_in_grams % 1000; int kg = weight_in_grams / 1000; if (kg >= 20.0) { str = QString("0"); } else { str = QString("%1.%2").arg(kg).arg((unsigned)(gr) / 100); } } else { double lbs = grams_to_lbs(weight_in_grams); str = QString("%1").arg(lbs, 0, 'f', lbs >= 40.0 ? 0 : 1); } return (str); } QString distance_string(int distanceInMeters) { QString str; if(get_units()->length == units::METERS) { if (distanceInMeters >= 1000) str = QString(translate("gettextFromC", "%1km")).arg(distanceInMeters / 1000); else str = QString(translate("gettextFromC", "%1m")).arg(distanceInMeters); } else { double miles = m_to_mile(distanceInMeters); if (miles >= 1.0) str = QString(translate("gettextFromC", "%1mi")).arg((int)miles); else str = QString(translate("gettextFromC", "%1yd")).arg((int)(miles * 1760)); } return str; } extern "C" const char *printGPSCoords(int lat, int lon) { unsigned int latdeg, londeg; unsigned int latmin, lonmin; double latsec, lonsec; QString lath, lonh, result; if (!lat && !lon) return strdup(""); if (prefs.coordinates_traditional) { lath = lat >= 0 ? translate("gettextFromC", "N") : translate("gettextFromC", "S"); lonh = lon >= 0 ? translate("gettextFromC", "E") : translate("gettextFromC", "W"); lat = abs(lat); lon = abs(lon); latdeg = lat / 1000000U; londeg = lon / 1000000U; latmin = (lat % 1000000U) * 60U; lonmin = (lon % 1000000U) * 60U; latsec = (latmin % 1000000) * 60; lonsec = (lonmin % 1000000) * 60; result.sprintf("%u%s%02d\'%06.3f\"%s %u%s%02d\'%06.3f\"%s", latdeg, UTF8_DEGREE, latmin / 1000000, latsec / 1000000, lath.toUtf8().data(), londeg, UTF8_DEGREE, lonmin / 1000000, lonsec / 1000000, lonh.toUtf8().data()); } else { result.sprintf("%f %f", (double) lat / 1000000.0, (double) lon / 1000000.0); } return strdup(result.toUtf8().data()); } /** * Try to parse in a generic manner a coordinate. */ static bool parseCoord(const QString& txt, int& pos, const QString& positives, const QString& negatives, const QString& others, double& value) { bool numberDefined = false, degreesDefined = false, minutesDefined = false, secondsDefined = false; double number = 0.0; int posBeforeNumber = pos; int sign = 0; value = 0.0; while (pos < txt.size()) { if (txt[pos].isDigit()) { if (numberDefined) return false; QRegExp numberRe("(\\d+(?:[\\.,]\\d+)?).*"); if (!numberRe.exactMatch(txt.mid(pos))) return false; number = numberRe.cap(1).toDouble(); numberDefined = true; posBeforeNumber = pos; pos += numberRe.cap(1).size() - 1; } else if (positives.indexOf(txt[pos]) >= 0) { if (sign != 0) return false; sign = 1; if (degreesDefined || numberDefined) { //sign after the degrees => //at the end of the coordinate ++pos; break; } } else if (negatives.indexOf(txt[pos]) >= 0) { if (sign != 0) { if (others.indexOf(txt[pos]) >= 0) //special case for the '-' sign => next coordinate break; return false; } sign = -1; if (degreesDefined || numberDefined) { //sign after the degrees => //at the end of the coordinate ++pos; break; } } else if (others.indexOf(txt[pos]) >= 0) { //we are at the next coordinate. break; } else if (DEGREE_SIGNS.indexOf(txt[pos]) >= 0 || (txt[pos].isSpace() && !degreesDefined && numberDefined)) { if (!numberDefined) return false; if (degreesDefined) { //next coordinate => need to put back the number pos = posBeforeNumber; numberDefined = false; break; } value += number; numberDefined = false; degreesDefined = true; } else if (txt[pos] == '\'' || (txt[pos].isSpace() && !minutesDefined && numberDefined)) { if (!numberDefined || minutesDefined) return false; value += number / 60.0; numberDefined = false; minutesDefined = true; } else if (txt[pos] == '"' || (txt[pos].isSpace() && !secondsDefined && numberDefined)) { if (!numberDefined || secondsDefined) return false; value += number / 3600.0; numberDefined = false; secondsDefined = true; } else if ((numberDefined || minutesDefined || secondsDefined) && (txt[pos] == ',' || txt[pos] == ';')) { // next coordinate coming up // eat the ',' and any subsequent white space while (txt[++pos].isSpace()) /* nothing */ ; break; } else { return false; } ++pos; } if (!degreesDefined && numberDefined) { value = number; //just a single number => degrees } else if (!minutesDefined && numberDefined) { value += number / 60.0; } else if (!secondsDefined && numberDefined) { value += number / 3600.0; } else if (numberDefined) { return false; } if (sign == -1) value *= -1.0; return true; } /** * Parse special coordinate formats that cannot be handled by parseCoord. */ static bool parseSpecialCoords(const QString& txt, double& latitude, double& longitude) { QRegExp xmlFormat("(-?\\d+(?:\\.\\d+)?),?\\s+(-?\\d+(?:\\.\\d+)?)"); if (xmlFormat.exactMatch(txt)) { latitude = xmlFormat.cap(1).toDouble(); longitude = xmlFormat.cap(2).toDouble(); return true; } return false; } bool parseGpsText(const QString &gps_text, double *latitude, double *longitude) { static const QString POS_LAT = QString("+N") + translate("gettextFromC", "N"); static const QString NEG_LAT = QString("-S") + translate("gettextFromC", "S"); static const QString POS_LON = QString("+E") + translate("gettextFromC", "E"); static const QString NEG_LON = QString("-W") + translate("gettextFromC", "W"); //remove the useless spaces (but keep the ones separating numbers) static const QRegExp SPACE_CLEANER("\\s*([" + POS_LAT + NEG_LAT + POS_LON + NEG_LON + DEGREE_SIGNS + "'\"\\s])\\s*"); const QString normalized = gps_text.trimmed().toUpper().replace(SPACE_CLEANER, "\\1"); if (normalized.isEmpty()) { *latitude = 0.0; *longitude = 0.0; return true; } if (parseSpecialCoords(normalized, *latitude, *longitude)) return true; int pos = 0; return parseCoord(normalized, pos, POS_LAT, NEG_LAT, POS_LON + NEG_LON, *latitude) && parseCoord(normalized, pos, POS_LON, NEG_LON, "", *longitude) && pos == normalized.size(); } #if 0 // we'll need something like this for the dive site management, eventually bool gpsHasChanged(struct dive *dive, struct dive *master, const QString &gps_text, bool *parsed_out) { double latitude, longitude; int latudeg, longudeg; bool ignore; bool *parsed = parsed_out ?: &ignore; *parsed = true; /* if we have a master and the dive's gps address is different from it, * don't change the dive */ if (master && (master->latitude.udeg != dive->latitude.udeg || master->longitude.udeg != dive->longitude.udeg)) return false; if (!(*parsed = parseGpsText(gps_text, &latitude, &longitude))) return false; latudeg = rint(1000000 * latitude); longudeg = rint(1000000 * longitude); /* if dive gps didn't change, nothing changed */ if (dive->latitude.udeg == latudeg && dive->longitude.udeg == longudeg) return false; /* ok, update the dive and mark things changed */ dive->latitude.udeg = latudeg; dive->longitude.udeg = longudeg; return true; } #endif QList getDivesInTrip(dive_trip_t *trip) { QList ret; int i; struct dive *d; for_each_dive (i, d) { if (d->divetrip == trip) { ret.push_back(get_divenr(d)); } } return ret; } // we need this to be uniq, but also make sure // it doesn't change during the life time of a Subsurface session // oh, and it has no meaning whatsoever - that's why we have the // silly initial number and increment by 3 :-) int dive_getUniqID(struct dive *d) { static QSet ids; static int maxId = 83529; int id = d->id; if (id) { if (!ids.contains(id)) { qDebug() << "WTF - only I am allowed to create IDs"; ids.insert(id); } return id; } maxId += 3; id = maxId; Q_ASSERT(!ids.contains(id)); ids.insert(id); return id; } static xmlDocPtr get_stylesheet_doc(const xmlChar *uri, xmlDictPtr, int, void *, xsltLoadType) { QFile f(QLatin1String(":/xslt/") + (const char *)uri); if (!f.open(QIODevice::ReadOnly)) { if (verbose > 0) { qDebug() << "cannot open stylesheet" << QLatin1String(":/xslt/") + (const char *)uri; return NULL; } } /* Load and parse the data */ QByteArray source = f.readAll(); xmlDocPtr doc = xmlParseMemory(source, source.size()); return doc; } extern "C" xsltStylesheetPtr get_stylesheet(const char *name) { // this needs to be done only once, but doesn't hurt to run every time xsltSetLoaderFunc(get_stylesheet_doc); // get main document: xmlDocPtr doc = get_stylesheet_doc((const xmlChar *)name, NULL, 0, NULL, XSLT_LOAD_START); if (!doc) return NULL; // xsltSetGenericErrorFunc(stderr, NULL); xsltStylesheetPtr xslt = xsltParseStylesheetDoc(doc); if (!xslt) { xmlFreeDoc(doc); return NULL; } return xslt; } extern "C" timestamp_t picture_get_timestamp(char *filename) { EXIFInfo exif; memblock mem; int retval; // filename might not be the actual filename, so let's go via the hash. if (readfile(localFilePath(QString(filename)).toUtf8().data(), &mem) <= 0) return 0; retval = exif.parseFrom((const unsigned char *)mem.buffer, (unsigned)mem.size); free(mem.buffer); if (retval != PARSE_EXIF_SUCCESS) return 0; return exif.epoch(); } extern "C" char *move_away(const char *old_path) { if (verbose > 1) qDebug() << "move away" << old_path; QDir oldDir(old_path); QDir newDir; QString newPath; int i = 0; do { newPath = QString(old_path) + QString(".%1").arg(++i); newDir.setPath(newPath); } while(newDir.exists()); if (verbose > 1) qDebug() << "renaming to" << newPath; if (!oldDir.rename(old_path, newPath)) { if (verbose) qDebug() << "rename of" << old_path << "to" << newPath << "failed"; // this next one we only try on Windows... if we are on a different platform // we simply give up and return an empty string #ifdef WIN32 if (subsurface_dir_rename(old_path, qPrintable(newPath)) == 0) #endif return strdup(""); } return strdup(qPrintable(newPath)); } extern "C" char *get_file_name(const char *fileName) { QFileInfo fileInfo(fileName); return strdup(fileInfo.fileName().toUtf8()); } extern "C" void copy_image_and_overwrite(const char *cfileName, const char *path, const char *cnewName) { QString fileName(cfileName); QString newName(path); newName += cnewName; QFile file(newName); if (file.exists()) file.remove(); if (!QFile::copy(fileName, newName)) qDebug() << "copy of" << fileName << "to" << newName << "failed"; } extern "C" bool string_sequence_contains(const char *string_sequence, const char *text) { if (same_string(text, "") || same_string(string_sequence, "")) return false; QString stringSequence(string_sequence); QStringList strings = stringSequence.split(",", QString::SkipEmptyParts); Q_FOREACH (const QString& string, strings) { if (string.trimmed().compare(QString(text).trimmed(), Qt::CaseInsensitive) == 0) return true; } return false; } static bool lessThan(const QPair &a, const QPair &b) { return a.second < b.second; } void selectedDivesGasUsed(QVector > &gasUsedOrdered) { int i, j; struct dive *d; QMap gasUsed; for_each_dive (i, d) { if (!d->selected) continue; volume_t diveGases[MAX_CYLINDERS] = {}; get_gas_used(d, diveGases); for (j = 0; j < MAX_CYLINDERS; j++) if (diveGases[j].mliter) { QString gasName = gasname(&d->cylinder[j].gasmix); gasUsed[gasName] += diveGases[j].mliter; } } Q_FOREACH(const QString& gas, gasUsed.keys()) { gasUsedOrdered.append(qMakePair(gas, gasUsed[gas])); } qSort(gasUsedOrdered.begin(), gasUsedOrdered.end(), lessThan); } QString getUserAgent() { QString arch; // fill in the system data - use ':' as separator // replace all other ':' with ' ' so that this is easy to parse #ifdef SUBSURFACE_MOBILE QString userAgent = QString("Subsurface-mobile:%1:").arg(subsurface_version()); #else QString userAgent = QString("Subsurface:%1:").arg(subsurface_version()); #endif userAgent.append(SubsurfaceSysInfo::prettyOsName().replace(':', ' ') + ":"); arch = SubsurfaceSysInfo::buildCpuArchitecture().replace(':', ' '); userAgent.append(arch); if (arch == "i386") userAgent.append("/" + SubsurfaceSysInfo::currentCpuArchitecture()); userAgent.append(":" + uiLanguage(NULL)); return userAgent; } QString uiLanguage(QLocale *callerLoc) { QString shortDateFormat; QString dateFormat; QString timeFormat; QSettings s; QVariant v; s.beginGroup("Language"); if (!s.value("UseSystemLanguage", true).toBool()) { loc = QLocale(s.value("UiLanguage", QLocale().uiLanguages().first()).toString()); } else { loc = QLocale(QLocale().uiLanguages().first()); } QString uiLang = loc.uiLanguages().first(); GET_BOOL("time_format_override", time_format_override); GET_BOOL("date_format_override", date_format_override); GET_TXT("time_format", time_format); GET_TXT("date_format", date_format); GET_TXT("date_format_short", date_format_short); s.endGroup(); // there's a stupid Qt bug on MacOS where uiLanguages doesn't give us the country info if (!uiLang.contains('-') && uiLang != loc.bcp47Name()) { QLocale loc2(loc.bcp47Name()); loc = loc2; uiLang = loc2.uiLanguages().first(); } if (callerLoc) *callerLoc = loc; if (!prefs.date_format_override || same_string(prefs.date_format_short, "") || same_string(prefs.date_format, "")) { // derive our standard date format from what the locale gives us // the short format is fine // the long format uses long weekday and month names, so replace those with the short ones // for time we don't want the time zone designator and don't want leading zeroes on the hours shortDateFormat = loc.dateFormat(QLocale::ShortFormat); dateFormat = loc.dateFormat(QLocale::LongFormat); dateFormat.replace("dddd,", "ddd").replace("dddd", "ddd").replace("MMMM", "MMM"); // special hack for Swedish as our switching from long weekday names to short weekday names // messes things up there dateFormat.replace("'en' 'den' d:'e'", " d"); if (!prefs.date_format_override || same_string(prefs.date_format, "")) { free((void*)prefs.date_format); prefs.date_format = strdup(qPrintable(dateFormat)); } if (!prefs.date_format_override || same_string(prefs.date_format_short, "")) { free((void*)prefs.date_format_short); prefs.date_format_short = strdup(qPrintable(shortDateFormat)); } } if (!prefs.time_format_override || same_string(prefs.time_format, "")) { timeFormat = loc.timeFormat(); timeFormat.replace("(t)", "").replace(" t", "").replace("t", "").replace("hh", "h").replace("HH", "H").replace("'kl'.", ""); timeFormat.replace(".ss", "").replace(":ss", "").replace("ss", ""); free((void*)prefs.time_format); prefs.time_format = strdup(qPrintable(timeFormat)); } return uiLang; } QLocale getLocale() { return loc; } void set_filename(const char *filename, bool force) { if (!force && existing_filename) return; free((void *)existing_filename); if (filename) existing_filename = strdup(filename); else existing_filename = NULL; } const QString get_dc_nickname(const char *model, uint32_t deviceid) { const DiveComputerNode *existNode = dcList.getExact(model, deviceid); if (existNode && !existNode->nickName.isEmpty()) return existNode->nickName; else return model; } QString get_depth_string(int mm, bool showunit, bool showdecimal) { if (prefs.units.length == units::METERS) { double meters = mm / 1000.0; return QString("%1%2").arg(meters, 0, 'f', (showdecimal && meters < 20.0) ? 1 : 0).arg(showunit ? translate("gettextFromC", "m") : ""); } else { double feet = mm_to_feet(mm); return QString("%1%2").arg(feet, 0, 'f', 0).arg(showunit ? translate("gettextFromC", "ft") : ""); } } QString get_depth_string(depth_t depth, bool showunit, bool showdecimal) { return get_depth_string(depth.mm, showunit, showdecimal); } QString get_depth_unit() { if (prefs.units.length == units::METERS) return QString("%1").arg(translate("gettextFromC", "m")); else return QString("%1").arg(translate("gettextFromC", "ft")); } QString get_weight_string(weight_t weight, bool showunit) { QString str = weight_string(weight.grams); if (get_units()->weight == units::KG) { str = QString("%1%2").arg(str).arg(showunit ? translate("gettextFromC", "kg") : ""); } else { str = QString("%1%2").arg(str).arg(showunit ? translate("gettextFromC", "lbs") : ""); } return (str); } QString get_weight_unit() { if (prefs.units.weight == units::KG) return QString("%1").arg(translate("gettextFromC", "kg")); else return QString("%1").arg(translate("gettextFromC", "lbs")); } /* these methods retrieve used gas per cylinder */ static unsigned start_pressure(cylinder_t *cyl) { return cyl->start.mbar ?: cyl->sample_start.mbar; } static unsigned end_pressure(cylinder_t *cyl) { return cyl->end.mbar ?: cyl->sample_end.mbar; } QString get_cylinder_used_gas_string(cylinder_t *cyl, bool showunit) { int decimals; const char *unit; double gas_usage; /* Get the cylinder gas use in mbar */ gas_usage = start_pressure(cyl) - end_pressure(cyl); /* Can we turn it into a volume? */ if (cyl->type.size.mliter) { gas_usage = bar_to_atm(gas_usage / 1000); gas_usage *= cyl->type.size.mliter; gas_usage = get_volume_units(gas_usage, &decimals, &unit); } else { gas_usage = get_pressure_units(gas_usage, &unit); decimals = 0; } // translate("gettextFromC","%.*f %s" return QString("%1 %2").arg(gas_usage, 0, 'f', decimals).arg(showunit ? unit : ""); } QString get_temperature_string(temperature_t temp, bool showunit) { if (temp.mkelvin == 0) { return ""; //temperature not defined } else if (prefs.units.temperature == units::CELSIUS) { double celsius = mkelvin_to_C(temp.mkelvin); return QString("%1%2%3").arg(celsius, 0, 'f', 1).arg(showunit ? (UTF8_DEGREE) : "").arg(showunit ? translate("gettextFromC", "C") : ""); } else { double fahrenheit = mkelvin_to_F(temp.mkelvin); return QString("%1%2%3").arg(fahrenheit, 0, 'f', 1).arg(showunit ? (UTF8_DEGREE) : "").arg(showunit ? translate("gettextFromC", "F") : ""); } } QString get_temp_unit() { if (prefs.units.temperature == units::CELSIUS) return QString(UTF8_DEGREE "C"); else return QString(UTF8_DEGREE "F"); } QString get_volume_string(volume_t volume, bool showunit, int mbar) { const char *unit; int decimals; double value = get_volume_units(volume.mliter, &decimals, &unit); if (mbar) { // we are showing a tank size // fix the weird imperial way of denominating size and provide // reasonable number of decimals if (prefs.units.volume == units::CUFT) value *= bar_to_atm(mbar / 1000.0); decimals = (value > 20.0) ? 0 : (value > 2.0) ? 1 : 2; } return QString("%1%2").arg(value, 0, 'f', decimals).arg(showunit ? unit : ""); } QString get_volume_unit() { const char *unit; (void) get_volume_units(0, NULL, &unit); return QString(unit); } QString get_pressure_string(pressure_t pressure, bool showunit) { if (prefs.units.pressure == units::BAR) { double bar = pressure.mbar / 1000.0; return QString("%1%2").arg(bar, 0, 'f', 1).arg(showunit ? translate("gettextFromC", "bar") : ""); } else { double psi = mbar_to_PSI(pressure.mbar); return QString("%1%2").arg(psi, 0, 'f', 0).arg(showunit ? translate("gettextFromC", "psi") : ""); } } QString getSubsurfaceDataPath(QString folderToFind) { QString execdir; QDir folder; // first check if we are running in the build dir, so the path that we // are looking for is just a subdirectory of the execution path; // this also works on Windows as there we install the dirs // under the application path execdir = QCoreApplication::applicationDirPath(); folder = QDir(execdir.append(QDir::separator()).append(folderToFind)); if (folder.exists()) return folder.absolutePath(); // next check for the Linux typical $(prefix)/share/subsurface execdir = QCoreApplication::applicationDirPath(); if (execdir.contains("bin")) { folder = QDir(execdir.replace("bin", "share/subsurface/").append(folderToFind)); if (folder.exists()) return folder.absolutePath(); } // then look for the usual locations on a Mac execdir = QCoreApplication::applicationDirPath(); folder = QDir(execdir.append("/../Resources/share/").append(folderToFind)); if (folder.exists()) return folder.absolutePath(); execdir = QCoreApplication::applicationDirPath(); folder = QDir(execdir.append("/../Resources/").append(folderToFind)); if (folder.exists()) return folder.absolutePath(); return QString(""); } static const char *printing_templates = "printing_templates"; QString getPrintingTemplatePathUser() { static QString path = QString(); if (path.isEmpty()) path = QString(system_default_directory()) + QDir::separator() + QString(printing_templates); return path; } QString getPrintingTemplatePathBundle() { static QString path = QString(); if (path.isEmpty()) path = getSubsurfaceDataPath(printing_templates); return path; } void copyPath(QString src, QString dst) { QDir dir(src); if (!dir.exists()) return; foreach (QString d, dir.entryList(QDir::Dirs | QDir::NoDotAndDotDot)) { QString dst_path = dst + QDir::separator() + d; dir.mkpath(dst_path); copyPath(src + QDir::separator() + d, dst_path); } foreach (QString f, dir.entryList(QDir::Files)) QFile::copy(src + QDir::separator() + f, dst + QDir::separator() + f); } int gettimezoneoffset(timestamp_t when) { QDateTime dt1, dt2; if (when == 0) dt1 = QDateTime::currentDateTime(); else dt1 = QDateTime::fromMSecsSinceEpoch(when * 1000); dt2 = dt1.toUTC(); dt1.setTimeSpec(Qt::UTC); return dt2.secsTo(dt1); } int parseTemperatureToMkelvin(const QString &text) { int mkelvin; QString numOnly = text; numOnly.replace(",", ".").remove(QRegExp("[^-0-9.]")); if (numOnly.isEmpty()) return 0; double number = numOnly.toDouble(); switch (prefs.units.temperature) { case units::CELSIUS: mkelvin = C_to_mkelvin(number); break; case units::FAHRENHEIT: mkelvin = F_to_mkelvin(number); break; default: mkelvin = 0; } return mkelvin; } QString get_dive_duration_string(timestamp_t when, QString hourText, QString minutesText) { int hrs, mins; mins = (when + 59) / 60; hrs = mins / 60; mins -= hrs * 60; QString displayTime; if (hrs) displayTime = QString("%1%2%3%4").arg(hrs).arg(hourText).arg(mins, 2, 10, QChar('0')).arg(minutesText); else displayTime = QString("%1%2").arg(mins).arg(minutesText); return displayTime; } QString get_dive_date_string(timestamp_t when) { QDateTime ts; ts.setMSecsSinceEpoch(when * 1000L); return loc.toString(ts.toUTC(), QString(prefs.date_format) + " " + prefs.time_format); } QString get_short_dive_date_string(timestamp_t when) { QDateTime ts; ts.setMSecsSinceEpoch(when * 1000L); return loc.toString(ts.toUTC(), QString(prefs.date_format_short) + " " + prefs.time_format); } const char *get_dive_date_c_string(timestamp_t when) { QString text = get_dive_date_string(when); return strdup(text.toUtf8().data()); } bool is_same_day(timestamp_t trip_when, timestamp_t dive_when) { static timestamp_t twhen = (timestamp_t) 0; static struct tm tmt; struct tm tmd; utc_mkdate(dive_when, &tmd); if (twhen != trip_when) { twhen = trip_when; utc_mkdate(twhen, &tmt); } return ((tmd.tm_mday == tmt.tm_mday) && (tmd.tm_mon == tmt.tm_mon) && (tmd.tm_year == tmt.tm_year)); } QString get_trip_date_string(timestamp_t when, int nr, bool getday) { struct tm tm; utc_mkdate(when, &tm); QDateTime localTime = QDateTime::fromTime_t(when); localTime.setTimeSpec(Qt::UTC); QString ret ; QString suffix = " " + QObject::tr("(%n dive(s))", "", nr); if (getday) { ret = localTime.date().toString(prefs.date_format) + suffix; } else { ret = localTime.date().toString("MMM yy") + suffix; } return ret; } extern "C" void reverseGeoLookup(degrees_t latitude, degrees_t longitude, uint32_t uuid) { QNetworkRequest request; QNetworkAccessManager *rgl = new QNetworkAccessManager(); request.setUrl(QString("http://open.mapquestapi.com/nominatim/v1/reverse.php?format=json&accept-language=%1&lat=%2&lon=%3") .arg(uiLanguage(NULL)).arg(latitude.udeg / 1000000.0).arg(longitude.udeg / 1000000.0)); request.setRawHeader("Accept", "text/json"); request.setRawHeader("User-Agent", getUserAgent().toUtf8()); QNetworkReply *reply = rgl->get(request); QEventLoop loop; QObject::connect(reply, SIGNAL(finished()), &loop, SLOT(quit())); loop.exec(); QJsonParseError errorObject; QJsonDocument jsonDoc = QJsonDocument::fromJson(reply->readAll(), &errorObject); if (errorObject.error != QJsonParseError::NoError) { qDebug() << errorObject.errorString(); } else { QJsonObject obj = jsonDoc.object(); QJsonObject address = obj.value("address").toObject(); qDebug() << "found country:" << address.value("country").toString(); struct dive_site *ds = get_dive_site_by_uuid(uuid); ds->notes = add_to_string(ds->notes, "countrytag: %s", address.value("country").toString().toUtf8().data()); } } QHash hashOf; QMutex hashOfMutex; QHash localFilenameOf; QHash thumbnailCache; extern "C" char * hashstring(char * filename) { return hashOf[QString(filename)].toHex().data(); } const QString hashfile_name() { return QString(system_default_directory()).append("/hashes"); } extern "C" char *hashfile_name_string() { return strdup(hashfile_name().toUtf8().data()); } void read_hashes() { QFile hashfile(hashfile_name()); if (hashfile.open(QIODevice::ReadOnly)) { QDataStream stream(&hashfile); stream >> localFilenameOf; stream >> hashOf; stream >> thumbnailCache; hashfile.close(); } } void write_hashes() { QSaveFile hashfile(hashfile_name()); if (hashfile.open(QIODevice::WriteOnly)) { QDataStream stream(&hashfile); stream << localFilenameOf; stream << hashOf; stream << thumbnailCache; hashfile.commit(); } else { qDebug() << "cannot open" << hashfile.fileName(); } } void add_hash(const QString filename, QByteArray hash) { QMutexLocker locker(&hashOfMutex); hashOf[filename] = hash; localFilenameOf[hash] = filename; } QByteArray hashFile(const QString filename) { QCryptographicHash hash(QCryptographicHash::Sha1); QFile imagefile(filename); if (imagefile.exists() && imagefile.open(QIODevice::ReadOnly)) { hash.addData(&imagefile); add_hash(filename, hash.result()); return hash.result(); } else { return QByteArray(); } } void learnHash(struct picture *picture, QByteArray hash) { if (picture->hash) free(picture->hash); QMutexLocker locker(&hashOfMutex); hashOf[QString(picture->filename)] = hash; picture->hash = strdup(hash.toHex()); } QString localFilePath(const QString originalFilename) { if (hashOf.contains(originalFilename) && localFilenameOf.contains(hashOf[originalFilename])) return localFilenameOf[hashOf[originalFilename]]; else return originalFilename; } QString fileFromHash(char *hash) { return localFilenameOf[QByteArray::fromHex(hash)]; } void updateHash(struct picture *picture) { QByteArray hash = hashFile(fileFromHash(picture->hash)); QMutexLocker locker(&hashOfMutex); hashOf[QString(picture->filename)] = hash; char *old = picture->hash; picture->hash = strdup(hash.toHex()); free(old); } void hashPicture(struct picture *picture) { char *oldHash = copy_string(picture->hash); learnHash(picture, hashFile(QString(picture->filename))); if (!same_string(picture->hash, "") && !same_string(picture->hash, oldHash)) mark_divelist_changed((true)); free(oldHash); } extern "C" void cache_picture(struct picture *picture) { QString filename = picture->filename; if (!hashOf.contains(filename)) QtConcurrent::run(hashPicture, picture); } void learnImages(const QDir dir, int max_recursions, bool recursed) { QDir current(dir); QStringList filters, files; if (max_recursions) { foreach (QString dirname, dir.entryList(QStringList(), QDir::NoDotAndDotDot | QDir::Dirs)) { learnImages(QDir(dir.filePath(dirname)), max_recursions - 1, true); } } foreach (QString format, QImageReader::supportedImageFormats()) { filters.append(QString("*.").append(format)); } foreach (QString file, dir.entryList(filters, QDir::Files)) { files.append(dir.absoluteFilePath(file)); } QtConcurrent::blockingMap(files, hashFile); } extern "C" const char *local_file_path(struct picture *picture) { QString hashString = picture->hash; if (hashString.isEmpty()) { QByteArray hash = hashFile(picture->filename); free(picture->hash); picture->hash = strdup(hash.toHex().data()); } QString localFileName = fileFromHash(picture->hash); if (localFileName.isEmpty()) localFileName = picture->filename; return strdup(qPrintable(localFileName)); } extern "C" bool picture_exists(struct picture *picture) { QString localFilename = fileFromHash(picture->hash); QByteArray hash = hashFile(localFilename); return same_string(hash.toHex().data(), picture->hash); } const QString picturedir() { return QString(system_default_directory()).append("/picturedata/"); } extern "C" char *picturedir_string() { return strdup(picturedir().toUtf8().data()); } /* when we get a picture from git storage (local or remote) and can't find the picture * based on its hash, we create a local copy with the hash as filename and the appropriate * suffix */ extern "C" void savePictureLocal(struct picture *picture, const char *data, int len) { QString dirname = picturedir(); QDir localPictureDir(dirname); localPictureDir.mkpath(dirname); QString suffix(picture->filename); suffix.replace(QRegularExpression(".*\\."), ""); QString filename(dirname + picture->hash + "." + suffix); QSaveFile out(filename); if (out.open(QIODevice::WriteOnly)) { out.write(data, len); out.commit(); add_hash(filename, QByteArray::fromHex(picture->hash)); } } extern "C" void picture_load_exif_data(struct picture *p) { EXIFInfo exif; memblock mem; if (readfile(localFilePath(QString(p->filename)).toUtf8().data(), &mem) <= 0) goto picture_load_exit; if (exif.parseFrom((const unsigned char *)mem.buffer, (unsigned)mem.size) != PARSE_EXIF_SUCCESS) goto picture_load_exit; p->longitude.udeg= lrint(1000000.0 * exif.GeoLocation.Longitude); p->latitude.udeg = lrint(1000000.0 * exif.GeoLocation.Latitude); picture_load_exit: free(mem.buffer); return; } QString get_gas_string(struct gasmix gas) { uint o2 = (get_o2(&gas) + 5) / 10, he = (get_he(&gas) + 5) / 10; QString result = gasmix_is_air(&gas) ? QObject::tr("AIR") : he == 0 ? (o2 == 100 ? QObject::tr("OXYGEN") : QString("EAN%1").arg(o2, 2, 10, QChar('0'))) : QString("%1/%2").arg(o2).arg(he); return result; } QString get_divepoint_gas_string(const divedatapoint &p) { return get_gas_string(p.gasmix); } weight_t string_to_weight(const char *str) { const char *end; double value = strtod_flags(str, &end, 0); QString rest = QString(end).trimmed(); QString local_kg = QObject::tr("kg"); QString local_lbs = QObject::tr("lbs"); weight_t weight; if (rest.startsWith("kg") || rest.startsWith(local_kg)) goto kg; // using just "lb" instead of "lbs" is intentional - some people might enter the singular if (rest.startsWith("lb") || rest.startsWith(local_lbs)) goto lbs; if (prefs.units.weight == prefs.units.LBS) goto lbs; kg: weight.grams = rint(value * 1000); return weight; lbs: weight.grams = lbs_to_grams(value); return weight; } depth_t string_to_depth(const char *str) { const char *end; double value = strtod_flags(str, &end, 0); QString rest = QString(end).trimmed(); QString local_ft = QObject::tr("ft"); QString local_m = QObject::tr("m"); depth_t depth; if (rest.startsWith("m") || rest.startsWith(local_m)) goto m; if (rest.startsWith("ft") || rest.startsWith(local_ft)) goto ft; if (prefs.units.length == prefs.units.FEET) goto ft; m: depth.mm = rint(value * 1000); return depth; ft: depth.mm = feet_to_mm(value); return depth; } pressure_t string_to_pressure(const char *str) { const char *end; double value = strtod_flags(str, &end, 0); QString rest = QString(end).trimmed(); QString local_psi = QObject::tr("psi"); QString local_bar = QObject::tr("bar"); pressure_t pressure; if (rest.startsWith("bar") || rest.startsWith(local_bar)) goto bar; if (rest.startsWith("psi") || rest.startsWith(local_psi)) goto psi; if (prefs.units.pressure == prefs.units.PSI) goto psi; bar: pressure.mbar = rint(value * 1000); return pressure; psi: pressure.mbar = psi_to_mbar(value); return pressure; } volume_t string_to_volume(const char *str, pressure_t workp) { const char *end; double value = strtod_flags(str, &end, 0); QString rest = QString(end).trimmed(); QString local_l = QObject::tr("l"); QString local_cuft = QObject::tr("cuft"); volume_t volume; if (rest.startsWith("l") || rest.startsWith("ℓ") || rest.startsWith(local_l)) goto l; if (rest.startsWith("cuft") || rest.startsWith(local_cuft)) goto cuft; /* * If we don't have explicit units, and there is no working * pressure, we're going to assume "liter" even in imperial * measurements. */ if (!workp.mbar) goto l; if (prefs.units.volume == prefs.units.LITER) goto l; cuft: if (workp.mbar) value /= bar_to_atm(workp.mbar / 1000.0); value = cuft_to_l(value); l: volume.mliter = rint(value * 1000); return volume; } fraction_t string_to_fraction(const char *str) { const char *end; double value = strtod_flags(str, &end, 0); fraction_t fraction; fraction.permille = rint(value * 10); return fraction; } int getCloudURL(QString &filename) { QString email = QString(prefs.cloud_storage_email); email.replace(QRegularExpression("[^a-zA-Z0-9@._+-]"), ""); if (email.isEmpty() || same_string(prefs.cloud_storage_password, "")) return report_error("Please configure Cloud storage email and password in the preferences"); if (email != prefs.cloud_storage_email_encoded) { free(prefs.cloud_storage_email_encoded); prefs.cloud_storage_email_encoded = strdup(qPrintable(email)); } filename = QString(QString(prefs.cloud_git_url) + "/%1[%1]").arg(email); if (verbose) qDebug() << "cloud URL set as" << filename; return 0; } extern "C" char *cloud_url() { QString filename; getCloudURL(filename); return strdup(filename.toUtf8().data()); } void loadPreferences() { QSettings s; QVariant v; s.beginGroup("Units"); if (s.value("unit_system").toString() == "metric") { prefs.unit_system = METRIC; prefs.units = SI_units; } else if (s.value("unit_system").toString() == "imperial") { prefs.unit_system = IMPERIAL; prefs.units = IMPERIAL_units; } else { prefs.unit_system = PERSONALIZE; GET_UNIT("length", length, units::FEET, units::METERS); GET_UNIT("pressure", pressure, units::PSI, units::BAR); GET_UNIT("volume", volume, units::CUFT, units::LITER); GET_UNIT("temperature", temperature, units::FAHRENHEIT, units::CELSIUS); GET_UNIT("weight", weight, units::LBS, units::KG); } GET_UNIT("vertical_speed_time", vertical_speed_time, units::MINUTES, units::SECONDS); GET_BOOL("coordinates", coordinates_traditional); s.endGroup(); s.beginGroup("TecDetails"); GET_BOOL("po2graph", pp_graphs.po2); GET_BOOL("pn2graph", pp_graphs.pn2); GET_BOOL("phegraph", pp_graphs.phe); GET_DOUBLE("po2threshold", pp_graphs.po2_threshold); GET_DOUBLE("pn2threshold", pp_graphs.pn2_threshold); GET_DOUBLE("phethreshold", pp_graphs.phe_threshold); GET_BOOL("mod", mod); GET_DOUBLE("modpO2", modpO2); GET_BOOL("ead", ead); GET_BOOL("redceiling", redceiling); GET_BOOL("dcceiling", dcceiling); GET_BOOL("calcceiling", calcceiling); GET_BOOL("calcceiling3m", calcceiling3m); GET_BOOL("calcndltts", calcndltts); GET_BOOL("calcalltissues", calcalltissues); GET_BOOL("hrgraph", hrgraph); GET_BOOL("tankbar", tankbar); GET_BOOL("percentagegraph", percentagegraph); GET_INT("gflow", gflow); GET_INT("gfhigh", gfhigh); GET_BOOL("gf_low_at_maxdepth", gf_low_at_maxdepth); GET_BOOL("show_ccr_setpoint",show_ccr_setpoint); GET_BOOL("show_ccr_sensors",show_ccr_sensors); GET_BOOL("zoomed_plot", zoomed_plot); set_gf(prefs.gflow, prefs.gfhigh, prefs.gf_low_at_maxdepth); GET_BOOL("show_sac", show_sac); GET_BOOL("display_unused_tanks", display_unused_tanks); GET_BOOL("show_average_depth", show_average_depth); s.endGroup(); s.beginGroup("GeneralSettings"); GET_TXT("default_filename", default_filename); GET_INT("default_file_behavior", default_file_behavior); if (prefs.default_file_behavior == UNDEFINED_DEFAULT_FILE) { // undefined, so check if there's a filename set and // use that, otherwise go with no default file if (QString(prefs.default_filename).isEmpty()) prefs.default_file_behavior = NO_DEFAULT_FILE; else prefs.default_file_behavior = LOCAL_DEFAULT_FILE; } GET_TXT("default_cylinder", default_cylinder); GET_BOOL("use_default_file", use_default_file); GET_INT("defaultsetpoint", defaultsetpoint); GET_INT("o2consumption", o2consumption); GET_INT("pscr_ratio", pscr_ratio); s.endGroup(); s.beginGroup("Display"); // get the font from the settings or our defaults // respect the system default font size if none is explicitly set QFont defaultFont = s.value("divelist_font", prefs.divelist_font).value(); if (IS_FP_SAME(system_divelist_default_font_size, -1.0)) { prefs.font_size = qApp->font().pointSizeF(); system_divelist_default_font_size = prefs.font_size; // this way we don't save it on exit } prefs.font_size = s.value("font_size", prefs.font_size).toFloat(); // painful effort to ignore previous default fonts on Windows - ridiculous QString fontName = defaultFont.toString(); if (fontName.contains(",")) fontName = fontName.left(fontName.indexOf(",")); if (subsurface_ignore_font(fontName.toUtf8().constData())) { defaultFont = QFont(prefs.divelist_font); } else { free((void *)prefs.divelist_font); prefs.divelist_font = strdup(fontName.toUtf8().constData()); } defaultFont.setPointSizeF(prefs.font_size); qApp->setFont(defaultFont); GET_INT("displayinvalid", display_invalid_dives); s.endGroup(); s.beginGroup("Animations"); GET_INT("animation_speed", animation_speed); s.endGroup(); s.beginGroup("Network"); GET_INT_DEF("proxy_type", proxy_type, QNetworkProxy::DefaultProxy); GET_TXT("proxy_host", proxy_host); GET_INT("proxy_port", proxy_port); GET_BOOL("proxy_auth", proxy_auth); GET_TXT("proxy_user", proxy_user); GET_TXT("proxy_pass", proxy_pass); s.endGroup(); s.beginGroup("CloudStorage"); GET_TXT("email", cloud_storage_email); GET_BOOL("save_password_local", save_password_local); if (prefs.save_password_local) { // GET_TEXT macro is not a single statement GET_TXT("password", cloud_storage_password); } GET_INT("cloud_verification_status", cloud_verification_status); GET_BOOL("cloud_background_sync", cloud_background_sync); // creating the git url here is simply a convenience when C code wants // to compare against that git URL - it's always derived from the base URL GET_TXT("cloud_base_url", cloud_base_url); prefs.cloud_git_url = strdup(qPrintable(QString(prefs.cloud_base_url) + "/git")); s.endGroup(); // Subsurface webservice id is stored outside of the groups GET_TXT("subsurface_webservice_uid", userid); // but the related time / distance threshold (only used in the mobile app) // are in their own group s.beginGroup("locationService"); GET_INT("distance_threshold", distance_threshold); GET_INT("time_threshold", time_threshold); s.endGroup(); // GeoManagement s.beginGroup("geocoding"); #ifdef DISABLED GET_BOOL("enable_geocoding", geocoding.enable_geocoding); GET_BOOL("parse_dive_without_gps", geocoding.parse_dive_without_gps); GET_BOOL("tag_existing_dives", geocoding.tag_existing_dives); #else prefs.geocoding.enable_geocoding = true; #endif GET_ENUM("cat0", taxonomy_category, geocoding.category[0]); GET_ENUM("cat1", taxonomy_category, geocoding.category[1]); GET_ENUM("cat2", taxonomy_category, geocoding.category[2]); s.endGroup(); } extern "C" bool isCloudUrl(const char *filename) { QString email = QString(prefs.cloud_storage_email); email.replace(QRegularExpression("[^a-zA-Z0-9@._+-]"), ""); if (!email.isEmpty() && QString(QString(prefs.cloud_git_url) + "/%1[%1]").arg(email) == filename) return true; return false; } extern "C" bool getProxyString(char **buffer) { if (prefs.proxy_type == QNetworkProxy::HttpProxy) { QString proxy; if (prefs.proxy_auth) proxy = QString("http://%1:%2@%3:%4").arg(prefs.proxy_user).arg(prefs.proxy_pass) .arg(prefs.proxy_host).arg(prefs.proxy_port); else proxy = QString("http://%1:%2").arg(prefs.proxy_host).arg(prefs.proxy_port); if (buffer) *buffer = strdup(qPrintable(proxy)); return true; } return false; } extern "C" void subsurface_mkdir(const char *dir) { QDir directory; if (!directory.mkpath(QString(dir))) qDebug() << "failed to create path" << dir; } extern "C" void parse_display_units(char *line) { qDebug() << line; } static QByteArray currentApplicationState; QByteArray getCurrentAppState() { return currentApplicationState; } void setCurrentAppState(QByteArray state) { currentApplicationState = state; } extern "C" bool in_planner() { return (currentApplicationState == "PlanDive" || currentApplicationState == "EditPlannedDive"); } void init_proxy() { QNetworkProxy proxy; proxy.setType(QNetworkProxy::ProxyType(prefs.proxy_type)); proxy.setHostName(prefs.proxy_host); proxy.setPort(prefs.proxy_port); if (prefs.proxy_auth) { proxy.setUser(prefs.proxy_user); proxy.setPassword(prefs.proxy_pass); } QNetworkProxy::setApplicationProxy(proxy); } QString getUUID() { QString uuidString; QSettings settings; settings.beginGroup("UpdateManager"); if (settings.contains("UUID")) { uuidString = settings.value("UUID").toString(); } else { QUuid uuid = QUuid::createUuid(); uuidString = uuid.toString(); settings.setValue("UUID", uuidString); } uuidString.replace("{", "").replace("}", ""); return uuidString; }