// SPDX-License-Identifier: GPL-2.0 #include "qthelper.h" #include "dive.h" #include "divelist.h" #include "divelog.h" #include "core/settings/qPrefLanguage.h" #include "core/settings/qPrefUpdateManager.h" #include "core/subsurface-qt/divelistnotifier.h" #include "subsurface-string.h" #include "gettextfromc.h" #include "statistics.h" #include "version.h" #include "errorhelper.h" #include "planner.h" #include "range.h" #include "subsurface-time.h" #include "gettextfromc.h" #include "metadata.h" #include "exif.h" #include "file.h" #include "picture.h" #include "selection.h" #include "tag.h" #include "imagedownloader.h" #include "xmlparams.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef Q_OS_UNIX #include #endif #include std::string existing_filename; static QLocale loc; static inline QString degreeSigns() { return QStringLiteral("dD\u00b0"); } static QString weight_string(weight_t weight) { QString str; if (get_units()->weight == units::KG) { double kg = (double) weight.grams / 1000.0; str = QString("%L1").arg(kg, 0, 'f', kg >= 20.0 ? 0 : 1); } else { double lbs = grams_to_lbs(weight.grams); str = QString("%L1").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 = gettextFromC::tr("%1km").arg(distanceInMeters / 1000); else str = gettextFromC::tr("%1m").arg(distanceInMeters); } else { double miles = m_to_mile(distanceInMeters); if (miles >= 1.0) str = gettextFromC::tr("%1mi").arg((int)miles); else str = gettextFromC::tr("%1yd").arg((int)(miles * 1760)); } return str; } QString printGPSCoords(const location_t *location) { int lat = location->lat.udeg; int lon = location->lon.udeg; unsigned int latdeg, londeg; unsigned int latmin, lonmin; double latsec, lonsec; QString lath, lonh, result; if (!has_location(location)) return QString(); if (prefs.coordinates_traditional) { lath = lat >= 0 ? gettextFromC::tr("N") : gettextFromC::tr("S"); lonh = lon >= 0 ? gettextFromC::tr("E") : gettextFromC::tr("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 = QString::asprintf("%u°%02d\'%06.3f\"%s %u°%02d\'%06.3f\"%s", latdeg, latmin / 1000000, latsec / 1000000, qPrintable(lath), londeg, lonmin / 1000000, lonsec / 1000000, qPrintable(lonh)); } else { result = QString::asprintf("%f %f", (double) lat / 1000000.0, (double) lon / 1000000.0); } return result; } std::string printGPSCoordsC(const location_t *location) { return printGPSCoords(location).toStdString(); } /** * 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) { static const QString separators = QString(",;"); 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; QRegularExpression numberRe("\\A(\\d+(?:[\\.,]\\d+)?).*"); QRegularExpressionMatch match = numberRe.match(txt.mid(pos)); if (!match.hasMatch()) return false; number = match.captured(1).toDouble(); numberDefined = true; posBeforeNumber = pos; pos += match.captured(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 (degreeSigns().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) && separators.indexOf(txt[pos]) >= 0) { // separator; this coordinate is finished 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; // We parsed a valid coordinate; eat any subsequent separators and/or // whitespace while (pos < txt.size() && (txt[pos].isSpace() || separators.indexOf(txt[pos]) >= 0)) pos++; 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) { QRegularExpression xmlFormat("\\A(-?\\d+(?:\\.\\d+)?),?\\s+(-?\\d+(?:\\.\\d+)?)\\z"); QRegularExpressionMatch match = xmlFormat.match(txt); if (match.hasMatch()) { latitude = match.captured(1).toDouble(); longitude = match.captured(2).toDouble(); return true; } return false; } bool parseGpsText(const QString &gps_text, double *latitude, double *longitude) { static const QString POS_LAT = QString("+N") + gettextFromC::tr("N"); static const QString NEG_LAT = QString("-S") + gettextFromC::tr("S"); static const QString POS_LON = QString("+E") + gettextFromC::tr("E"); static const QString NEG_LON = QString("-W") + gettextFromC::tr("W"); // Remove the useless spaces (but keep the ones separating numbers) // and normalize different ways of writing separators. static const QRegularExpression spaceCleaner("\\s*([" + POS_LAT + NEG_LAT + POS_LON + NEG_LON + degreeSigns() + "'\"\\s])\\s*"); const QString normalized = gps_text.trimmed().toUpper(). replace(spaceCleaner, "\\1"). replace(QStringLiteral("′"), "'"). replace(QStringLiteral("’"), "'"). replace(QStringLiteral("''"), "\""). replace(QStringLiteral("″"), "\""); 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(); } static xmlDocPtr get_stylesheet_doc(const xmlChar *uri, xmlDictPtr, int, void *, xsltLoadType) { std::string filename = std::string(":/xslt/") + (const char *)uri; QFile f(filename.c_str()); if (!f.open(QIODevice::ReadOnly)) { if (verbose > 0) { report_info("cannot open stylesheet %s %s", filename.c_str(), qPrintable(f.errorString())); return NULL; } } /* Load and parse the data */ QByteArray source = f.readAll(); xmlDocPtr doc = xmlParseMemory(source, source.size()); return doc; } 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; } std::string move_away(const std::string &old_path) { if (verbose > 1) report_info("move away %s", old_path.c_str()); QDir oldDir(old_path.c_str()); QDir newDir; std::string newPath; int i = 0; do { newPath = old_path + "." + std::to_string(++i); newDir.setPath(newPath.c_str()); } while(newDir.exists()); if (verbose > 1) report_info("renaming toi %s", newPath.c_str()); if (!oldDir.rename(old_path.c_str(), newPath.c_str())) { if (verbose) report_info("rename of %s to %s failed", old_path.c_str(), newPath.c_str()); // 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.c_str(), newPath.c_str()) == 0) #endif return std::string(); } return newPath; } std::string get_file_name(const std::string &fileName) { QFileInfo fileInfo(fileName.c_str()); return fileInfo.fileName().toStdString(); } static bool lessThan(const QPair &a, const QPair &b) { return a.second < b.second; } QVector> selectedDivesGasUsed() { QMap gasUsed; for (dive *d: getDiveSelection()) { std::vector diveGases = get_gas_used(d); for (size_t j = 0; j < d->cylinders.size(); j++) { if (diveGases[j].mliter) { QString gasName = QString::fromStdString(d->get_cylinder(j)->gasmix.name()); gasUsed[gasName] += diveGases[j].mliter; } } } QVector> gasUsedOrdered; gasUsedOrdered.reserve(gasUsed.size()); for (auto it = gasUsed.cbegin(); it != gasUsed.cend(); ++it) gasUsedOrdered.append(qMakePair(it.key(), it.value())); std::sort(gasUsedOrdered.begin(), gasUsedOrdered.end(), lessThan); return gasUsedOrdered; } 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_canonical_version()); #elif SUBSURFACE_DOWNLOADER QString userAgent = QString("Subsurface-downloader:%1:").arg(subsurface_canonical_version()); #else QString userAgent = QString("Subsurface:%1:").arg(subsurface_canonical_version()); #endif QString prettyOsName = QSysInfo::prettyProductName(); #if defined(Q_OS_UNIX) && !defined(Q_OS_MAC) && !defined(Q_OS_ANDROID) // QSysInfo::kernelType() returns lowercase ("linux" instead of "Linux") struct utsname u; if (uname(&u) == 0) prettyOsName = QString::fromLatin1(u.sysname) + QLatin1String(" (") + prettyOsName + QLatin1Char(')'); #endif userAgent.append(prettyOsName.replace(':', ' ') + ":"); arch = QSysInfo::buildCpuArchitecture().replace(':', ' '); userAgent.append(arch); if (arch == "i386") userAgent.append("/" + QSysInfo::currentCpuArchitecture()); userAgent.append(":" + getUiLanguage()); return userAgent; } std::string subsurface_user_agent() { return getUserAgent().toStdString(); } QString getUiLanguage() { return QString::fromStdString(prefs.locale.lang_locale); } static std::vector get_languages(const QLocale &loc) { std::vector res; for (const QString &s: loc.uiLanguages()) res.push_back(s.toStdString()); return res; } /* TOOD: Move this to SettingsObjectWrapper, and also fix this complexity. * gezus. */ void initUiLanguage() { QString shortDateFormat; QString dateFormat; QString timeFormat; // set loc as system language or selected language if (!qPrefLanguage::use_system_language()) { loc = QLocale(qPrefLanguage::lang_locale()); } else { loc = QLocale(QLocale().uiLanguages().first()); } // Find language code with one '-', or use the first entry. std::vector languages = get_languages(loc); std::string uiLang; if (!languages.empty()) { auto it = std::find_if(languages.begin(), languages.end(), [](const std::string &s) { return std::count(s.begin(), s.end(), '-') == 1; }); uiLang = it == languages.end() ? languages[0] : *it; } #ifdef SUBSURFACE_MOBILE report_info("uiLanguages was %s, picked %s", join(languages, ", ").c_str(), uiLang.c_str()); #endif // there's a stupid Qt bug on MacOS where uiLanguages doesn't give us the country info if (!contains(uiLang, '-') && uiLang != loc.bcp47Name().toStdString()) { QLocale loc2(loc.bcp47Name()); loc = loc2; std::vector languages = get_languages(loc2); if (!languages.empty()) { auto it = std::find_if(languages.begin(), languages.end(), [](const std::string &s) { return contains(s, '-'); }); uiLang = it == languages.end() ? languages[0] : *it; } #ifdef SUBSURFACE_MOBILE report_info("bcp47 based languages was %s, picked %s", join(languages, ", ").c_str(), uiLang.c_str()); #endif } prefs.locale.lang_locale = uiLang; if (!prefs.date_format_override || prefs.date_format.empty()) { // derive our standard date format from what the locale gives us // 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 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"); prefs.date_format = dateFormat.toStdString(); } if (!prefs.date_format_override || prefs.date_format_short.empty()) { // derive our standard date format from what the locale gives us shortDateFormat = loc.dateFormat(QLocale::ShortFormat); prefs.date_format_short = shortDateFormat.toStdString(); } if (!prefs.time_format_override || prefs.time_format.empty()) { 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", ""); prefs.time_format = timeFormat.toStdString(); } } QLocale getLocale() { return loc; } QString get_depth_string(int mm, bool showunit, bool showdecimal) { if (prefs.units.length == units::METERS) { double meters = mm / 1000.0; return QString("%L1%2").arg(meters, 0, 'f', (showdecimal && meters < 20.0) ? 1 : 0).arg(showunit ? gettextFromC::tr("m") : QString()); } else { double feet = mm_to_feet(mm); return QString("%L1%2").arg(feet, 0, 'f', 0).arg(showunit ? gettextFromC::tr("ft") : QString()); } } QString get_depth_string(depth_t depth, bool showunit, bool showdecimal) { return get_depth_string(depth.mm, showunit, showdecimal); } QString get_depth_unit(bool metric) { if (metric) return gettextFromC::tr("m"); else return gettextFromC::tr("ft"); } QString get_depth_unit() { return get_depth_unit(prefs.units.length == units::METERS); } QString get_weight_string(weight_t weight, bool showunit) { QString str = weight_string(weight); return showunit ? str + get_weight_unit() : str; } QString get_weight_unit(bool metric) { if (metric) return gettextFromC::tr("kg"); else return gettextFromC::tr("lbs"); } QString get_weight_unit() { return get_weight_unit(prefs.units.weight == units::KG); } 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("%L1%2%3").arg(celsius, 0, 'f', 1).arg(showunit ? "°" : "").arg(showunit ? gettextFromC::tr("C") : QString()); } else { double fahrenheit = mkelvin_to_F(temp.mkelvin); return QString("%L1%2%3").arg(fahrenheit, 0, 'f', 1).arg(showunit ? "°" : "").arg(showunit ? gettextFromC::tr("F") : QString()); } } QString get_temp_unit(bool metric) { if (metric) return QStringLiteral("°C"); else return QStringLiteral("°F"); } QString get_temp_unit() { return get_temp_unit(prefs.units.temperature == units::CELSIUS); } QString get_volume_string(int mliter, bool showunit) { const char *unit; int decimals; double value = get_volume_units(mliter, &decimals, &unit); return QString("%L1%2").arg(value, 0, 'f', decimals).arg(showunit ? unit : ""); } QString get_volume_string(volume_t volume, bool showunit) { return get_volume_string(volume.mliter, showunit); } QString get_volume_unit(bool metric) { if (metric) return gettextFromC::tr("ℓ"); else return gettextFromC::tr("cuft"); } QString get_volume_unit() { return get_volume_unit(prefs.units.volume == units::LITER); } QString get_pressure_string(pressure_t pressure, bool showunit) { if (prefs.units.pressure == units::BAR) { double bar = pressure.mbar / 1000.0; return QString("%L1%2").arg(bar, 0, 'f', 0).arg(showunit ? gettextFromC::tr("bar") : QString()); } else { double psi = mbar_to_PSI(pressure.mbar); return QString("%L1%2").arg(psi, 0, 'f', 0).arg(showunit ? gettextFromC::tr("psi") : QString()); } } QString get_salinity_string(int salinity) { return QStringLiteral("%L1%2").arg(salinity / 10.0).arg(gettextFromC::tr("g/ℓ")); } // the water types need to match the watertypes enum static const char *waterTypes[] = { QT_TRANSLATE_NOOP("gettextFromC", "Fresh"), QT_TRANSLATE_NOOP("gettextFromC", "Brackish"), QT_TRANSLATE_NOOP("gettextFromC", "EN13319"), QT_TRANSLATE_NOOP("gettextFromC", "Salt"), QT_TRANSLATE_NOOP("gettextFromC", "Use DC") }; QString get_water_type_string(int salinity) { if (salinity < 10050) return gettextFromC::tr(waterTypes[FRESHWATER]); else if (salinity < 10190) return gettextFromC::tr(waterTypes[BRACKISHWATER]); else if (salinity < 10210) return gettextFromC::tr(waterTypes[EN13319WATER]); else return gettextFromC::tr(waterTypes[SALTWATER]); } QStringList getWaterTypesAsString() { QStringList res; res.reserve(std::size(waterTypes)); for (const char *t: waterTypes) res.push_back(gettextFromC::tr(t)); return res; } 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() { // Function-local statics are initialized on first invocation static QString path(QString::fromStdString(system_default_directory()) + QDir::separator() + QString(printing_templates)); return path; } QString getPrintingTemplatePathBundle() { // Function-local statics are initialized on first invocation static QString path(getSubsurfaceDataPath(printing_templates)); return path; } QDateTime timestampToDateTime(timestamp_t when) { // Subsurface always uses "local time" as in "whatever was the local time at the location" // so all time stamps have no time zone information and are in UTC return QDateTime::fromMSecsSinceEpoch(1000 * when, Qt::UTC); } timestamp_t dateTimeToTimestamp(const QDateTime &t) { return t.toSecsSinceEpoch(); } QString render_seconds_to_string(int seconds) { if (seconds % 60 == 0) return QDateTime::fromSecsSinceEpoch(seconds, Qt::UTC).toUTC().toString("h:mm"); else return QDateTime::fromSecsSinceEpoch(seconds, Qt::UTC).toUTC().toString("h:mm:ss"); } int parseDurationToSeconds(const QString &text) { int secs; QString numOnly = text; QString hours, minutes, seconds; numOnly.replace(",", ".").remove(QRegularExpression("[^-0-9.:]")); if (numOnly.isEmpty()) return 0; if (numOnly.contains(':')) { hours = numOnly.left(numOnly.indexOf(':')); minutes = numOnly.right(numOnly.length() - hours.length() - 1); if (minutes.contains(':')) { numOnly = minutes; minutes = numOnly.left(numOnly.indexOf(':')); seconds = numOnly.right(numOnly.length() - minutes.length() - 1); } } else { hours = QStringLiteral("0"); minutes = std::move(numOnly); } secs = lrint(hours.toDouble() * 3600 + minutes.toDouble() * 60 + seconds.toDouble()); return secs; } int parseLengthToMm(const QString &text) { int mm; QString numOnly = text; numOnly.replace(",", ".").remove(QRegularExpression("[^-0-9.]")); if (numOnly.isEmpty()) return 0; double number = numOnly.toDouble(); if (text.contains(gettextFromC::tr("m"), Qt::CaseInsensitive)) { mm = lrint(number * 1000); } else if (text.contains(gettextFromC::tr("ft"), Qt::CaseInsensitive)) { mm = feet_to_mm(number); } else { switch (prefs.units.length) { case units::FEET: mm = feet_to_mm(number); break; case units::METERS: mm = lrint(number * 1000); break; default: mm = 0; } } return mm; } int parseTemperatureToMkelvin(const QString &text) { int mkelvin; QString numOnly = text; numOnly.replace(",", ".").remove(QRegularExpression("[^-0-9.]")); if (numOnly.isEmpty()) return 0; double number = numOnly.toDouble(); if (text.contains(gettextFromC::tr("C"), Qt::CaseInsensitive)) { mkelvin = C_to_mkelvin(number); } else if (text.contains(gettextFromC::tr("F"), Qt::CaseInsensitive)) { mkelvin = F_to_mkelvin(number); } else { 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; } int parsePressureToMbar(const QString &text) { int mbar; QString numOnly = text; // different locales use different symbols as group separator or decimal separator // (I think it's usually '.' and ',' - but maybe there are others?) // let's use Qt's help to get the parsing right QString validNumberCharacters("0-9"); validNumberCharacters += loc.decimalPoint(); validNumberCharacters += loc.groupSeparator(); numOnly.remove(QRegularExpression(QString("[^%1]").arg(validNumberCharacters))); if (numOnly.isEmpty()) return 0; double number = loc.toDouble(numOnly); if (text.contains(gettextFromC::tr("bar"), Qt::CaseInsensitive)) { mbar = lrint(number * 1000); } else if (text.contains(gettextFromC::tr("psi"), Qt::CaseInsensitive)) { mbar = psi_to_mbar(number); } else { switch (prefs.units.pressure) { case units::BAR: mbar = lrint(number * 1000); break; case units::PSI: mbar = psi_to_mbar(number); break; default: mbar = 0; } } return mbar; } int parseGasMixO2(const QString &text) { QString gasString = text; int o2, number; if (gasString.contains(gettextFromC::tr("AIR"), Qt::CaseInsensitive)) { o2 = O2_IN_AIR; } else if (gasString.contains(gettextFromC::tr("EAN"), Qt::CaseInsensitive)) { gasString.remove(QRegularExpression("[^0-9]")); number = gasString.toInt(); o2 = number * 10; } else if (gasString.contains("/")) { QStringList gasSplit = gasString.split("/"); number = gasSplit[0].toInt(); o2 = number * 10; } else { number = gasString.toInt(); o2 = number * 10; } return o2; } int parseGasMixHE(const QString &text) { QString gasString = text; int he, number; if (gasString.contains("/")) { QStringList gasSplit = gasString.split("/"); number = gasSplit[1].toInt(); he = number * 10; } else { he = 0; } return he; } QString get_dive_duration_string(timestamp_t when, QString hoursText, QString minutesText, QString secondsText, QString separator, bool isFreeDive) { int hrs, mins, fullmins, secs; mins = (when + 30) / 60; fullmins = when / 60; secs = when - 60 * fullmins; hrs = mins / 60; QString displayTime; if (prefs.units.duration_units == units::ALWAYS_HOURS || (prefs.units.duration_units == units::MIXED && hrs)) { mins -= hrs * 60; displayTime = QString("%1%2%3%4%5").arg(hrs).arg(separator == ":" ? "" : hoursText).arg(separator) .arg(mins, 2, 10, QChar('0')).arg(separator == ":" ? hoursText : minutesText); } else if (isFreeDive && ( prefs.units.duration_units == units::MINUTES_ONLY || minutesText != "" )) { // Freedive <1h and we display no hours but only minutes for other dives // --> display a short (5min 35sec) freedives e.g. as "5:35" // Freedive <1h and we display a unit for minutes // --> display a short (5min 35sec) freedives e.g. as "5:35min" if (separator == ":") displayTime = QString("%1%2%3%4").arg(fullmins).arg(separator) .arg(secs, 2, 10, QChar('0')).arg(minutesText); else displayTime = QString("%1%2%3%4%5").arg(fullmins).arg(minutesText).arg(separator) .arg(secs).arg(secondsText); } else if (isFreeDive) { // Mixed display (hh:mm / mm only) and freedive < 1h and we have no unit for minutes // --> Prefix duration with "0:" --> "0:05:35" if (separator == ":") displayTime = QString("%1%2%3%4%5%6").arg(hrs).arg(separator) .arg(fullmins, 2, 10, QChar('0')).arg(separator) .arg(secs, 2, 10, QChar('0')).arg(hoursText); // Separator != ":" and no units for minutes --> unlikely case - remove? else displayTime = QString("%1%2%3%4%5%6%7%8").arg(hrs).arg(hoursText).arg(separator) .arg(fullmins).arg(minutesText).arg(separator) .arg(secs).arg(secondsText); } else { displayTime = QString("%1%2").arg(mins).arg(minutesText); } return displayTime; } QString get_dive_surfint_string(timestamp_t when, QString daysText, QString hoursText, QString minutesText, QString separator, int maxdays) { int days, hrs, mins; days = when / 3600 / 24; hrs = (when - days * 3600 * 24) / 3600; mins = (when + 30 - days * 3600 * 24 - hrs * 3600) / 60; QString displayInt; if (maxdays && days > maxdays) displayInt = gettextFromC::tr("more than %1 days").arg(maxdays); else if (days) displayInt = QString("%1%2%3%4%5%6%7%8").arg(days).arg(daysText).arg(separator) .arg(hrs).arg(hoursText).arg(separator) .arg(mins).arg(minutesText); else displayInt = QString("%1%2%3%4%5").arg(hrs).arg(hoursText).arg(separator) .arg(mins).arg(minutesText); return displayInt; } QString get_dive_date_string(timestamp_t when) { QDateTime ts; ts.setMSecsSinceEpoch(when * 1000L); return loc.toString(ts.toUTC(), QString::fromStdString(prefs.date_format + " " + prefs.time_format)); } // Get local seconds since Epoch from ISO formatted UTC date time + offset string time_t get_dive_datetime_from_isostring(char *when) { QDateTime divetime = QDateTime::fromString(when, Qt::ISODate); return (time_t)(divetime.toSecsSinceEpoch()); } QString get_short_dive_date_string(timestamp_t when) { QDateTime ts; ts.setMSecsSinceEpoch(when * 1000L); return loc.toString(ts.toUTC(), QString::fromStdString(prefs.date_format_short + " " + prefs.time_format)); } std::string get_dive_date_c_string(timestamp_t when) { return get_short_dive_date_string(when).toStdString(); } static QString get_dive_only_date_string(timestamp_t when) { QDateTime ts; ts.setMSecsSinceEpoch(when * 1000L); return loc.toString(ts.toUTC(), QString::fromStdString(prefs.date_format)); } QString get_first_dive_date_string() { const dive_table &dives = divelog.dives; return !dives.empty() ? get_dive_only_date_string(dives[0]->when) : gettextFromC::tr("no dives"); } QString get_last_dive_date_string() { const dive_table &dives = divelog.dives; return !dives.empty() ? get_dive_only_date_string(dives.back()->when) : gettextFromC::tr("no dives"); } std::string get_current_date() { QDateTime ts(QDateTime::currentDateTime());; QString current_date; current_date = loc.toString(ts, QString::fromStdString(prefs.date_format_short)); return current_date.toStdString(); } static QMutex hashOfMutex; static QHash localFilenameOf; std::string hashfile_name() { return std::string(system_default_directory()) + "/hashes"; } static QString thumbnailDir() { return QString::fromStdString(system_default_directory() + "/thumbnails/"); } // Calculate thumbnail filename by hashing name of file. QString thumbnailFileName(const QString &filename) { if (filename.isEmpty()) return QString(); QCryptographicHash hash(QCryptographicHash::Sha1); hash.addData(filename.toUtf8()); return thumbnailDir() + hash.result().toHex(); } // TODO: This is a temporary helper struct. Remove in due course with convertLocalFilename(). struct HashToFile { QByteArray hash; QString filename; bool operator< (const HashToFile &h) const { return hash < h.hash; } }; // During a transition period, convert the hash->localFilename into a canonicalFilename->localFilename. // TODO: remove this code in due course static void convertLocalFilename(const QHash &hashOf, const QHash &hashToLocal) { // Bail out early if there is nothing to do if (hashToLocal.isEmpty()) return; // Create a vector of hash/filename pairs and sort by hash. // Elements can then be accessed with binary search. QHash canonicalFilenameByHash; QVector h2f; h2f.reserve(hashOf.size()); for (auto it = hashOf.cbegin(); it != hashOf.cend(); ++it) h2f.append({ it.value(), it.key() }); std::sort(h2f.begin(), h2f.end()); // Make the canonical-to-local connection for (auto it = hashToLocal.cbegin(); it != hashToLocal.cend(); ++it) { QByteArray hash = it.key(); HashToFile dummy { hash, QString() }; for(auto it2 = std::lower_bound(h2f.begin(), h2f.end(), dummy); it2 != h2f.end() && it2->hash == hash; ++it2) { // Note that learnPictureFilename cares about all the special cases, // i.e. either filename being empty or both filenames being equal. learnPictureFilename(it2->filename, it.value()); } QString canonicalFilename = canonicalFilenameByHash.value(it.key()); } } void read_hashes() { QFile hashfile(QString::fromStdString(hashfile_name())); if (hashfile.open(QIODevice::ReadOnly)) { QDataStream stream(&hashfile); QHash localFilenameByHash; QHash hashOf; stream >> localFilenameByHash; // For backwards compatibility stream >> hashOf; // For backwards compatibility QHash thumbnailCache; stream >> thumbnailCache; // For backwards compatibility QMutexLocker locker(&hashOfMutex); stream >> localFilenameOf; locker.unlock(); hashfile.close(); convertLocalFilename(hashOf, localFilenameByHash); } QMutexLocker locker(&hashOfMutex); localFilenameOf.remove(""); // Make sure that the thumbnail directory exists QDir().mkpath(thumbnailDir()); } void write_hashes() { QSaveFile hashfile(QString::fromStdString(hashfile_name())); QMutexLocker locker(&hashOfMutex); if (hashfile.open(QIODevice::WriteOnly)) { QDataStream stream(&hashfile); stream << QHash(); // Empty hash to filename - for backwards compatibility stream << QHash(); // Empty hashes - for backwards compatibility stream << QHash(); // Empty thumbnailCache - for backwards compatibility stream << localFilenameOf; hashfile.commit(); } else { qWarning() << "Cannot open hashfile for writing: " << hashfile.fileName(); } } void learnPictureFilename(const QString &originalName, const QString &localName) { if (originalName.isEmpty() || localName.isEmpty()) return; QMutexLocker locker(&hashOfMutex); // Only keep track of images where original and local names differ if (originalName == localName) localFilenameOf.remove(originalName); else localFilenameOf[originalName] = localName; } QString localFilePath(const QString &originalFilename) { QMutexLocker locker(&hashOfMutex); return localFilenameOf.value(originalFilename, originalFilename); } // TODO: Apparently Qt has no simple way of listing the supported video // codecs? Do we have to query them by hand using QMediaPlayer::hasSupport()? const QStringList videoExtensionsList = { ".avi", ".mp4", ".mov", ".mpeg", ".mpg", ".wmv" }; // Raw extensions according to https://en.wikipedia.org/wiki/Raw_image_format static const QStringList rawExtensionsList = { #ifdef LIBRAW_SUPPORT "*.3fr", "*.ari", "*.arw", "*.bay", "*.braw", "*.crw", "*.cr2", "*.cr3", "*.cap", "*.data", "*.dcs", "*.dcr", "*.dng", "*.drf", "*.eip", "*.erf", "*.fff", "*.gpr", "*.iiq", "*.k25", "*.kdc", "*.mdc", "*.mef", "*.mos", "*.mrw", "*.nef", "*.nrw", "*.obm", "*.orf", "*.pef", "*.ptx", "*.pxn", "*.r3d", "*.raf", "*.raw", "*.rwl", "*.rw2", "*.rwz", "*.sr2", "*.srf", "*.srw", "*.x3f" #endif }; QStringList mediaExtensionFilters() { return imageExtensionFilters() + videoExtensionFilters(); } QStringList imageExtensionFilters() { QStringList filters; for (QString format: QImageReader::supportedImageFormats()) filters.append("*." + format); return filters + rawExtensionsList; } QStringList videoExtensionFilters() { QStringList filters; for (const QString &format: videoExtensionsList) filters.append("*" + format); return filters; } std::string local_file_path(const struct picture &picture) { return localFilePath(QString::fromStdString(picture.filename)).toStdString(); } 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) ? gettextFromC::tr("AIR") : he == 0 ? (o2 == 100 ? gettextFromC::tr("OXYGEN") : QString("EAN%1").arg(o2, 2, 10, QChar('0'))) : QString("%1/%2").arg(o2).arg(he); return result; } QString get_dive_gas(const struct dive *d, int dcNr, int cylinderId) { const cylinder_t *cyl = d->get_cylinder(cylinderId); const divecomputer *dc = d->get_dc(dcNr); bool showUse = (dc->divemode == CCR) | !is_cylinder_use_appropriate(*dc, *cyl, false); QString gasType = get_gas_string(cyl->gasmix); QString gasName; /* Check if we have the same gasmix two or more times * If yes return more verbose string */ int same_gas = same_gasmix_cylinder(*cyl, cylinderId, d, true); if (same_gas != -1) { gasType += QString(" (%1 %2").arg(gettextFromC::tr("cyl.")).arg(cylinderId + 1); gasName = QString::fromStdString(d->get_cylinder(cylinderId)->type.description); } if (showUse) { if (gasName.isNull()) gasType += " ("; else gasType += ", "; gasType += gettextFromC::tr(cylinderuse_text[d->get_cylinder(cylinderId)->cylinder_use]); } if (!gasName.isNull()) gasType += QString(", %1").arg(gasName); if (!gasName.isNull() || showUse) gasType += ")"; return gasType; } std::vector> get_dive_gas_list(const struct dive *d, int dcNr, bool showOnlyAppropriate) { const divecomputer *dc = d->get_dc(dcNr); std::vector> list; for (unsigned int i = 0; i < d->cylinders.size(); i++) { if (showOnlyAppropriate && !is_cylinder_use_appropriate(*dc, *d->get_cylinder(i), false)) continue; list.push_back(std::pair(i, get_dive_gas(d, dcNr, i))); } return list; } QStringList stringToList(const QString &s) { QStringList res = s.split(",", SKIP_EMPTY); for (QString &str: res) str = str.trimmed(); return res; } weight_t string_to_weight(const char *str) { const char *end; double value = permissive_strtod(str, &end); QString rest = QString(end).trimmed(); QString local_kg = gettextFromC::tr("kg"); QString local_lbs = gettextFromC::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 = lrint(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 = permissive_strtod(str, &end); QString rest = QString(end).trimmed(); QString local_ft = gettextFromC::tr("ft"); QString local_m = gettextFromC::tr("m"); depth_t depth; if (value < 0) value = 0; 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 = lrint(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 = permissive_strtod(str, &end); QString rest = QString(end).trimmed(); QString local_psi = gettextFromC::tr("psi"); QString local_bar = gettextFromC::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 = lrint(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 = permissive_strtod(str, &end); QString rest = QString(end).trimmed(); QString local_l = gettextFromC::tr("l"); QString local_cuft = gettextFromC::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 = lrint(value * 1000); return volume; } fraction_t string_to_fraction(const char *str) { const char *end; double value = permissive_strtod(str, &end); fraction_t fraction; fraction.permille = lrint(value * 10); /* * Don't permit values less than zero or greater than 100% */ // TODO: use std::clamp() once we have comparison on unit types if (fraction.permille < 0) fraction = 0_percent; else if (fraction.permille > 1000) fraction = 100_percent; return fraction; } // Sadly, the standard C++ library's regexp support is mediocre at best. static void sanitize_email(std::string &email) { size_t j = 0; for (char c: email) { if (isalnum(c) || c == '@' || c == '.' || c == '_' || c == '+' || c == '-') email[j++] = c; } email.resize(j); } std::optional getCloudURL() { std::string email(prefs.cloud_storage_email); sanitize_email(email); if (email.empty() || prefs.cloud_storage_password.empty()) { report_error("Please configure Cloud storage email and password in the preferences"); return {}; } prefs.cloud_storage_email_encoded = email; std::string filename = std::string(prefs.cloud_base_url) + "git/" + email + "[" + email + "]"; if (verbose) report_info("returning cloud URL %s", filename.c_str()); return filename; } void subsurface_mkdir(const char *dir) { QDir directory; if (!directory.mkpath(QString(dir))) report_info("failed to create path %s", dir); } enum deco_mode decoMode(bool in_planner) { return in_planner ? prefs.planner_deco_mode : prefs.display_deco_mode; } void init_proxy() { QNetworkProxy proxy; proxy.setType(QNetworkProxy::ProxyType(prefs.proxy_type)); proxy.setHostName(QString::fromStdString(prefs.proxy_host)); proxy.setPort(prefs.proxy_port); if (prefs.proxy_auth) { proxy.setUser(QString::fromStdString(prefs.proxy_user)); proxy.setPassword(QString::fromStdString(prefs.proxy_pass)); } QNetworkProxy::setApplicationProxy(proxy); } void parse_seabear_header(const char *filename, struct xml_params *params) { QFile f(filename); f.open(QFile::ReadOnly); QString parseLine = f.readLine(); /* * Parse dive number from Seabear CSV header */ while ((parseLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { if (parseLine.contains("//DIVE NR: ")) { xml_params_add(params, "diveNro", qPrintable(parseLine.replace(QString::fromLatin1("//DIVE NR: "), QString::fromLatin1("")))); break; } } f.seek(0); /* * Parse header - currently only interested in sample * interval and hardware version. If we have old format * the interval value is missing from the header. */ while ((parseLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { if (parseLine.contains("//Hardware Version: ")) { xml_params_add(params, "hw", qPrintable(parseLine.replace(QString::fromLatin1("//Hardware Version: "), QString::fromLatin1("\"Seabear ")).trimmed().append("\""))); break; } } f.seek(0); /* * Grab the sample interval */ while ((parseLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { if (parseLine.contains("//Log interval: ")) { xml_params_add(params, "delta", qPrintable(parseLine.remove(QString::fromLatin1("//Log interval: ")).trimmed().remove(QString::fromLatin1(" s")))); break; } } f.seek(0); /* * Dive mode, can be: OC, APNEA, BOTTOM TIMER, CCR, CCR SENSORBOARD * Note that we scan over the "Log interval" on purpose */ while ((parseLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { QString needle = "//Mode: "; if (parseLine.contains(needle)) { xml_params_add(params, "diveMode", qPrintable(parseLine.replace(needle, QString::fromLatin1("")).prepend("\"").append("\""))); } } f.seek(0); /* * Grabbing some fields for the extradata */ while ((parseLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { QString needle = "//Firmware Version: "; if (parseLine.contains(needle)) { xml_params_add(params, "Firmware", qPrintable(parseLine.replace(needle, QString::fromLatin1("")).prepend("\"").append("\""))); } } f.seek(0); while ((parseLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { QString needle = "//Serial number: "; if (parseLine.contains(needle)) { xml_params_add(params, "Serial", qPrintable(parseLine.replace(needle, QString::fromLatin1("")).prepend("\"").append("\""))); } } f.seek(0); while ((parseLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { QString needle = "//GF: "; if (parseLine.contains(needle)) { xml_params_add(params, "GF", qPrintable(parseLine.replace(needle, QString::fromLatin1("")).prepend("\"").append("\""))); } } f.seek(0); while ((parseLine = f.readLine().trimmed()).length() > 0 && !f.atEnd()) { } /* * Parse CSV fields */ parseLine = f.readLine().trimmed(); const QStringList currColumns = parseLine.split(';'); unsigned short index = 0; for (const QString &columnText: currColumns) { if (columnText == "Time") { xml_params_add_int(params, "timeField", index++); } else if (columnText == "Depth") { xml_params_add_int(params, "depthField", index++); } else if (columnText == "Temperature") { xml_params_add_int(params, "tempField", index++); } else if (columnText == "NDT") { xml_params_add_int(params, "ndlField", index++); } else if (columnText == "TTS") { xml_params_add_int(params, "ttsField", index++); } else if (columnText == "pO2_1") { xml_params_add_int(params, "o2sensor1Field", index++); } else if (columnText == "pO2_2") { xml_params_add_int(params, "o2sensor2Field", index++); } else if (columnText == "pO2_3") { xml_params_add_int(params, "o2sensor3Field", index++); } else if (columnText == "Ceiling") { /* TODO: Add support for dive computer reported ceiling*/ xml_params_add_int(params, "ceilingField", index++); } else if (columnText == "Tank pressure") { xml_params_add_int(params, "pressureField", index++); } else { // We do not know about this value report_info("Seabear import found an un-handled field: %s", qPrintable(columnText)); } } /* Separator is ';' and the index for that in DiveLogImportDialog constructor is 2 */ xml_params_add_int(params, "separatorIndex", 2); /* And metric units */ xml_params_add_int(params, "units", 0); f.close(); } void print_qt_versions() { printf("%s\n", qPrintable(QStringLiteral("built with Qt Version %1, runtime from Qt Version %2").arg(QT_VERSION_STR).arg(qVersion()))); } QMutex planLock; void lock_planner() { planLock.lock(); } void unlock_planner() { planLock.unlock(); } // function to call to allow the UI to show updates for longer running activities void (*uiNotificationCallback)(QString msg) = nullptr; void uiNotification(const QString &msg) { if (uiNotificationCallback != nullptr) uiNotificationCallback(msg); } // function to call to get changes for a git commit QString (*changesCallback)() = nullptr; std::string get_changes_made() { return changesCallback != nullptr ? changesCallback().toStdString() : std::string(); } // Generate a cylinder-renumber map for use when the n-th cylinder // of a dive with count cylinders is removed. It fills an int vector // with 0..n, -1, n..count-1. Each entry in the vector represents // the new id of the cylinder, whereby <0 means that this particular // cylinder does not get any new id. This should probably be moved // to the C-core, but using std::vector is simply more convenient. // The function assumes that n < count! std::vector get_cylinder_map_for_remove(int count, int n) { // 1) Fill mapping[0]..mapping[n-1] with 0..n-1 // 2) Set mapping[n] to -1 // 3) Fill mapping[n+1]..mapping[count-1] with n..count-2 std::vector mapping(count); std::iota(mapping.begin(), mapping.begin() + n, 0); mapping[n] = -1; std::iota(mapping.begin() + n + 1, mapping.end(), n); return mapping; } // Generate a cylinder-renumber map for use when a cylinder is added // before the n-th cylinder. It fills an int vector with // with 0..n-1, n+1..count. Each entry in the vector represents // the new id of the cylinder. This probably should be moved // to the C-core, but using std::vector is simply more convenient. // This function assumes that that n <= count! std::vector get_cylinder_map_for_add(int count, int n) { std::vector mapping(count); std::iota(mapping.begin(), mapping.begin() + n, 0); std::iota(mapping.begin() + n, mapping.end(), n + 1); return mapping; } void emit_reset_signal() { emit diveListNotifier.dataReset(); }