#include "SettingsObjectWrapper.h" #include #include "../dive.h" // TODO: remove copy_string from dive.h static QString tecDetails = QStringLiteral("TecDetails"); short PartialPressureGasSettings::showPo2() const { return prefs.pp_graphs.po2; } short PartialPressureGasSettings::showPn2() const { return prefs.pp_graphs.pn2; } short PartialPressureGasSettings::showPhe() const { return prefs.pp_graphs.phe; } double PartialPressureGasSettings::po2Threshold() const { return prefs.pp_graphs.po2_threshold; } double PartialPressureGasSettings::pn2Threshold() const { return prefs.pp_graphs.pn2_threshold; } double PartialPressureGasSettings::pheThreshold() const { return prefs.pp_graphs.phe_threshold; } void PartialPressureGasSettings::setShowPo2(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("po2graph", value); prefs.pp_graphs.po2 = value; emit showPo2Changed(value); } void PartialPressureGasSettings::setShowPn2(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("pn2graph", value); prefs.pp_graphs.pn2 = value; emit showPn2Changed(value); } void PartialPressureGasSettings::setShowPhe(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("phegraph", value); prefs.pp_graphs.phe = value; emit showPheChanged(value); } void PartialPressureGasSettings::setPo2Threshold(double value) { QSettings s; s.beginGroup(tecDetails); s.setValue("po2threshold", value); prefs.pp_graphs.po2_threshold = value; emit po2ThresholdChanged(value); } void PartialPressureGasSettings::setPn2Threshold(double value) { QSettings s; s.beginGroup(tecDetails); s.setValue("pn2threshold", value); prefs.pp_graphs.pn2_threshold = value; emit pn2ThresholdChanged(value); } void PartialPressureGasSettings::setPheThreshold(double value) { QSettings s; s.beginGroup(tecDetails); s.setValue("phethreshold", value); prefs.pp_graphs.phe_threshold = value; emit pheThresholdChanged(value); } double TechnicalDetailsSettings:: modp02() const { return prefs.modpO2; } short TechnicalDetailsSettings::ead() const { return prefs.ead; } short TechnicalDetailsSettings::dcceiling() const { return prefs.dcceiling; } short TechnicalDetailsSettings::redceiling() const { return prefs.redceiling; } short TechnicalDetailsSettings::calcceiling() const { return prefs.calcceiling; } short TechnicalDetailsSettings::calcceiling3m() const { return prefs.calcceiling3m; } short TechnicalDetailsSettings::calcalltissues() const { return prefs.calcalltissues; } short TechnicalDetailsSettings::calcndltts() const { return prefs.calcndltts; } short TechnicalDetailsSettings::gflow() const { return prefs.gflow; } short TechnicalDetailsSettings::gfhigh() const { return prefs.gfhigh; } short TechnicalDetailsSettings::hrgraph() const { return prefs.hrgraph; } short TechnicalDetailsSettings::tankBar() const { return prefs.tankbar; } short TechnicalDetailsSettings::percentageGraph() const { return prefs.percentagegraph; } short TechnicalDetailsSettings::rulerGraph() const { return prefs.rulergraph; } bool TechnicalDetailsSettings::showCCRSetpoint() const { return prefs.show_ccr_setpoint; } bool TechnicalDetailsSettings::showCCRSensors() const { return prefs.show_ccr_sensors; } short TechnicalDetailsSettings::zoomedPlot() const { return prefs.zoomed_plot; } short TechnicalDetailsSettings::showSac() const { return prefs.show_sac; } bool TechnicalDetailsSettings::gfLowAtMaxDepth() const { return prefs.gf_low_at_maxdepth; } short TechnicalDetailsSettings::displayUnusedTanks() const { return prefs.display_unused_tanks; } short TechnicalDetailsSettings::showAverageDepth() const { return prefs.show_average_depth; } short int TechnicalDetailsSettings::mod() const { return prefs.mod; } void TechnicalDetailsSettings::setModpO2(double value) { QSettings s; s.beginGroup(tecDetails); s.setValue("modpO2", value); prefs.modpO2 = value; emit modpO2Changed(value); } void TechnicalDetailsSettings::setEad(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("ead", value); prefs.ead = value; emit eadChanged(value); } void TechnicalDetailsSettings::setMod(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("mod", value); prefs.mod = value; emit modChanged(value); } void TechnicalDetailsSettings::setDcceiling(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("dcceiling", value); prefs.dcceiling = value; emit dcceilingChanged(value); } void TechnicalDetailsSettings::setRedceiling(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("redceiling", value); prefs.redceiling = value; emit redceilingChanged(value); } void TechnicalDetailsSettings::setCalcceiling(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("calcceiling", value); prefs.calcceiling = value; emit calcceilingChanged(value); } void TechnicalDetailsSettings::setCalcceiling3m(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("calcceiling3m", value); prefs.calcceiling3m = value; emit calcceiling3mChanged(value); } void TechnicalDetailsSettings::setCalcalltissues(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("calcalltissues", value); prefs.calcalltissues = value; emit calcalltissuesChanged(value); } void TechnicalDetailsSettings::setCalcndltts(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("calcndltts", value); prefs.calcndltts = value; emit calcndlttsChanged(value); } void TechnicalDetailsSettings::setGflow(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("gflow", value); prefs.gflow = value; set_gf(prefs.gflow, prefs.gfhigh, prefs.gf_low_at_maxdepth); emit gflowChanged(value); } void TechnicalDetailsSettings::setGfhigh(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("gfhigh", value); prefs.gfhigh = value; set_gf(prefs.gflow, prefs.gfhigh, prefs.gf_low_at_maxdepth); emit gfhighChanged(value); } void TechnicalDetailsSettings::setHRgraph(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("hrgraph", value); prefs.hrgraph = value; emit hrgraphChanged(value); } void TechnicalDetailsSettings::setTankBar(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("tankbar", value); prefs.tankbar = value; emit tankBarChanged(value); } void TechnicalDetailsSettings::setPercentageGraph(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("percentagegraph", value); prefs.percentagegraph = value; emit percentageGraphChanged(value); } void TechnicalDetailsSettings::setRulerGraph(short value) { /* TODO: search for the QSettings of the RulerBar */ QSettings s; s.beginGroup(tecDetails); s.setValue("phethreshold", value); prefs.pp_graphs.phe_threshold = value; emit pheThresholdChanged(value); } void TechnicalDetailsSettings::setShowCCRSetpoint(bool value) { QSettings s; s.beginGroup(tecDetails); s.setValue("show_ccr_setpoint", value); prefs.show_ccr_setpoint = value; emit showCCRSetpointChanged(value); } void TechnicalDetailsSettings::setShowCCRSensors(bool value) { QSettings s; s.beginGroup(tecDetails); s.setValue("show_ccr_sensors", value); prefs.show_ccr_sensors = value; emit showCCRSensorsChanged(value); } void TechnicalDetailsSettings::setZoomedPlot(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("zoomed_plot", value); prefs.zoomed_plot = value; emit zoomedPlotChanged(value); } void TechnicalDetailsSettings::setShowSac(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("show_sac", value); prefs.show_sac = value; emit showSacChanged(value); } void TechnicalDetailsSettings::setGfLowAtMaxDepth(bool value) { QSettings s; s.beginGroup(tecDetails); s.setValue("gf_low_at_maxdepth", value); prefs.gf_low_at_maxdepth = value; set_gf(prefs.gflow, prefs.gfhigh, prefs.gf_low_at_maxdepth); emit gfLowAtMaxDepthChanged(value); } void TechnicalDetailsSettings::setDisplayUnusedTanks(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("display_unused_tanks", value); prefs.display_unused_tanks = value; emit displayUnusedTanksChanged(value); } void TechnicalDetailsSettings::setShowAverageDepth(short value) { QSettings s; s.beginGroup(tecDetails); s.setValue("show_average_depth", value); prefs.show_average_depth = value; emit showAverageDepthChanged(value); } FacebookSettings::FacebookSettings(QObject *parent) : group(QStringLiteral("WebApps")), subgroup(QStringLiteral("Facebook")) { } QString FacebookSettings::accessToken() const { return QString(prefs.facebook.access_token); } QString FacebookSettings::userId() const { return QString(prefs.facebook.user_id); } QString FacebookSettings::albumId() const { return QString(prefs.facebook.album_id); } void FacebookSettings::setAccessToken (const QString& value) { #if SAVE_FB_CREDENTIALS QSettings s; s.beginGroup(group); s.beginGroup(subgroup); s.setValue("ConnectToken", value); #endif prefs.facebook.access_token = copy_string(qPrintable(value)); emit accessTokenChanged(value); } void FacebookSettings::setUserId(const QString& value) { #if SAVE_FB_CREDENTIALS QSettings s; s.beginGroup(group); s.beginGroup(subgroup); s.setValue("UserId", value); #endif prefs.facebook.user_id = copy_string(qPrintable(value)); emit userIdChanged(value); } void FacebookSettings::setAlbumId(const QString& value) { #if SAVE_FB_CREDENTIALS QSettings s; s.beginGroup(group); s.beginGroup(subgroup); s.setValue("AlbumId", value); #endif prefs.facebook.album_id = copy_string(qPrintable(value)); emit albumIdChanged(value); } GeocodingPreferences::GeocodingPreferences(QObject *parent) : group(QStringLiteral("geocoding")) { } bool GeocodingPreferences::enableGeocoding() const { return prefs.geocoding.enable_geocoding; } bool GeocodingPreferences::parseDiveWithoutGps() const { return prefs.geocoding.parse_dive_without_gps; } bool GeocodingPreferences::tagExistingDives() const { return prefs.geocoding.tag_existing_dives; } taxonomy_category GeocodingPreferences::firstTaxonomyCategory() const { return prefs.geocoding.category[0]; } taxonomy_category GeocodingPreferences::secondTaxonomyCategory() const { return prefs.geocoding.category[1]; } taxonomy_category GeocodingPreferences::thirdTaxonomyCategory() const { return prefs.geocoding.category[2]; } void GeocodingPreferences::setEnableGeocoding(bool value) { QSettings s; s.beginGroup(group); s.setValue("enable_geocoding", value); prefs.geocoding.enable_geocoding = value; emit enableGeocodingChanged(value); } void GeocodingPreferences::setParseDiveWithoutGps(bool value) { QSettings s; s.beginGroup(group); s.setValue("parse_dives_without_gps", value); prefs.geocoding.parse_dive_without_gps = value; emit parseDiveWithoutGpsChanged(value); } void GeocodingPreferences::setTagExistingDives(bool value) { QSettings s; s.beginGroup(group); s.setValue("tag_existing_dives", value); prefs.geocoding.tag_existing_dives = value; emit tagExistingDivesChanged(value); } void GeocodingPreferences::setFirstTaxonomyCategory(taxonomy_category value) { QSettings s; s.beginGroup(group); s.setValue("cat0", value); prefs.show_average_depth = value; emit firstTaxonomyCategoryChanged(value); } void GeocodingPreferences::setSecondTaxonomyCategory(taxonomy_category value) { QSettings s; s.beginGroup(group); s.setValue("cat1", value); prefs.show_average_depth = value; emit secondTaxonomyCategoryChanged(value); } void GeocodingPreferences::setThirdTaxonomyCategory(taxonomy_category value) { QSettings s; s.beginGroup(group); s.setValue("cat2", value); prefs.show_average_depth = value; emit thirdTaxonomyCategoryChanged(value); }