/*************************************************************************** BionxControl Copyright © 2025 christoph holzheuer christoph.holzheuer@gmail.com Using: mhs_can_drv.c © 2011 - 2023 by MHS-Elektronik GmbH & Co. KG, Germany Klaus Demlehner, klaus@mhs-elektronik.de @see www.mhs-elektronik.de Based on Bionx data type descriptions from: BigXionFlasher USB V 0.2.4 rev. 97 © 2011-2013 by Thomas Koenig @see www.bigxionflasher.org Bionx Bike Info © 2018 Thorsten Schmidt (tschmidt@ts-soft.de) @see www.ts-soft.de This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. @see https://github.com/bikemike/bionx-bikeinfo ***************************************************************************/ #include #include #include #include #include #include #include #include #include #include using namespace Qt::StringLiterals; BCDataManager::BCDataManager(QObject *parent) : QObject(parent) { //qRegisterMetaType("BCValue*"); //qRegisterMetaType(); } BCDataManager::~BCDataManager() { } void BCDataManager::loadXmlBikeData( const QString& fileName ) { auto printAttrs = [](const QXmlStreamReader& xml) { QStringList parts; for (const auto &attr : xml.attributes()) { parts << attr.name().toString() + "=\"" + attr.value().toString() + "\""; } qDebug().noquote() << parts.join(" "); }; /* QString fileName = QFileDialog::getOpenFileName(this, "XML öffnen", "", "XML Files (*.xml)"); if (fileName.isEmpty()) return; */ QFile file(fileName); if (!file.open(QIODevice::ReadOnly | QIODevice::Text)) { // __fix throw QMessageBox::warning(nullptr, "Fehler", "Datei konnte nicht geöffnet werden."); return; } _xml.setDevice(&file); if (_xml.readNextStartElement()) { if (_xml.name() != "Bike"_L1 ) // fix throw _xml.raiseError(QObject::tr("The file is not an 'Bike' file.")); } // ?? Q_ASSERT(_xml.isStartElement() && _xml.name() == "Bike"_L1); while (!_xml.atEnd() && !_xml.hasError()) { QXmlStreamReader::TokenType token = _xml.readNext(); if (token == QXmlStreamReader::StartElement) { QString deviceType = _xml.attributes().value("Type"_L1).toString(); printAttrs (_xml); // Wir wollen die Device-ID aus dem XML Tag ermitteln const char* deviceKey = _xml.attributes().value("Type"_L1).toLatin1().constData(); auto optDeviceID = _bcDeviceEnum.keyToValue64(deviceKey); //_currentDeviceID = BCDevice::ID( deviceID.value_or( BCDevice::ID::Invalid ) ); if( optDeviceID.has_value()) { qDebug() << " --- Device: " << _xml.name() << ": " << deviceType << " : " << optDeviceID; BCDevice::ID currentDeviceID = BCDevice::ID( optDeviceID.value() ); loadXmlBikeDeviceData(currentDeviceID); } } } /* if (xml.hasError()) { QMessageBox::critical(nullptr, "Parsing Fehler", xml.errorString()); } else { m_model->setDevices(parsedValues); } */ // create & add new model to the model map } void BCDataManager::loadXmlBikeDeviceData(BCDevice::ID deviceID) { auto printAttrs = [](const QXmlStreamReader& xml) { QStringList parts; for (const auto &attr : xml.attributes()) { parts << attr.name().toString() + "=\"" + attr.value().toString() + "\""; } qDebug().noquote() << parts.join(" "); }; printAttrs (_xml); Q_ASSERT(_xml.isStartElement() && _xml.name() == "Device"_L1); qDebug() << " XXX ---------------"; // temporäre Wertliste für neues Device BCValueList currentValues; while( _xml.readNextStartElement() ) { if( _xml.attributes().hasAttribute(BCTags::ID) ) { //qDebug() << " --- found: " << _xml.name() << " : " << _xml.attributes().value(BCTags::ID); QString id = _xml.attributes().value(BCTags::ID).toString(); // füllen des Parameter packs BCDataParams params { .ID = id, .Label = _xml.attributes().value(BCTags::Label).toString(), .Default = _xml.attributes().value(BCTags::Default).toString(), .UnitType = _xml.attributes().value(BCTags::UnitType).toString(), }; // nur gültige Werte sind vorhanden und können gespeichert werden std::optional newValue = makeDataValue( deviceID, params ); if(newValue) currentValues.push_back( *newValue ); } // weiter zum nächsten Element _xml.skipCurrentElement(); } // Wenn dieses Device fertig geladen wurde, soll das MainWindow es abholen if( !currentValues.isEmpty() ) emit valueListReady( deviceID, currentValues ); } std::optional BCDataManager::makeDataValue( BCDevice::ID deviceID, const BCDataParams& params ) { /* auto setIfExists = [&]( QStringView source, optDouble& target ) { if( !source.isEmpty() ) { bool ok; double testVal = source.toDouble(&ok); if (ok) target = testVal; } }; */ static QMetaEnum s_bcValueEnum{QMetaEnum::fromType()}; static BCValueTypeMap s_bcDataTypes { { "Byte", new BCValueTypeWord( "", 1.5625F) }, { "Word", new BCValueTypeWord( "", 1.5625F) }, { "Float", new BCValueTypeWord( "", 1.5625F) }, { "Percent",new BCValueTypeWord( "%", 1.5625 ) }, { "KWh", new BCValueTypeWord( "kwh", 1.5625 ) }, { "Watt", new BCValueTypeWord( "w", 1.5625 ) }, { "Km", new BCValueTypeWord( "km", 1.5625 ) }, { "Kmh", new BCValueTypeWord( "km/h", 0.1 ) }, { "Mm", new BCValueTypeWord( "mm", 1.5625 ) }, { "Sec", new BCValueTypeWord( "s", 1.5625 ) }, { "SoC", new BCValueTypeWord( "%", 1.5625 ) }, { "Odo", new BCValueTypeWord( "km", 1.5625 ) }, { "Assist", new BCValueTypeWord( "", 0 ,4 ) }, { "Assist", new BCValueTypeWord( "%" ) }, }; /* _dataTypes.insert( "Float", new Fitz{{ "", 1.5625F}} ); _dataTypes.insert( "Percent",new Fatz{{ "%", 1.5625 }} ); _dataTypes.insert( "KWh", new Fatz{{ "kwh", 1.5625 }} ); _dataTypes.insert( "Watt", new Long{{ "w", 1.5625 }} ); _dataTypes.insert( "Km", new BCValueTypeWord{{ "km", 1.5625 }} ); _dataTypes.insert( "Kmh", new BCValueTypeWord{{ "km/h", 0.1 }} ); _dataTypes.insert( "Mm", new BCValueTypeWord{{ "mm", 1.5625 }} ); _dataTypes.insert( "Sec", new BCValueTypeWord{{ "s", 1.5625 }} ); _dataTypes.insert( "SoC", new Long{{ "%", 1.5625 }} ); _dataTypes.insert( "Odo", new Fitz{{ "km", 1.5625 }} ); _dataTypes.insert( "Assist", new Fatz{{ "", 0 ,4 }} ); _dataTypes.insert( "Assist", new Fatz{{ "%" }} ); //_dataTypes.insert( "Date", { BCValueType::TypeID::Date } ); */ /* Wir brauchen: - einen gültige ID String um die enum ID herauszufinden. - einen gültige UnitType String um den ValueType herauszufinden. */ std::optional newValue; std::optional IDVal = s_bcValueEnum.keyToValue64( params.ID.toLatin1().constData() ); qDebug() << " --- should create: " << params.Label << ": " << params.UnitType; if( IDVal.has_value() ) { if( s_bcDataTypes.contains( params.UnitType ) ) { const BCValueType* valueType = s_bcDataTypes[params.UnitType]; newValue = BCValue( valueType, deviceID, static_cast(IDVal.value()) ); /* setIfExists( params.Factor, newValue.factor ); setIfExists( params.Min, newValue.min ); setIfExists( params.Max, newValue.max ); */ newValue->label = params.Label; newValue->defaultValue = params.Default; qDebug() << " --- created: " << params.Label; } } return newValue; } // --- NEU: Speichern mit QXmlStreamWriter --- void BCDataManager::saveBikeData() { /* QString fileName = QFileDialog::getSaveFileName(this, "XML speichern", "", "XML Files (*.xml)"); if (fileName.isEmpty()) return; QFile file(fileName); if (!file.open(QIODevice::WriteOnly | QIODevice::Text)) { QMessageBox::warning(this, "Fehler", "Datei konnte nicht zum Schreiben geöffnet werden."); return; } QXmlStreamWriter xml(&file); xml.setAutoFormatting(true); // Sorgt für schöne Einrückungen (Tabs/Spaces) xml.writeStartDocument(); xml.writeStartElement("devices"); // Daten vom Model holen const QList &devices = m_model->getDevices(); for (const Device &d : devices) { xml.writeStartElement("device"); xml.writeAttribute("name", d.name); xml.writeAttribute("ip", d.ip); xml.writeEndElement(); // } xml.writeEndElement(); // xml.writeEndDocument(); // Prüfen ob alles geschrieben wurde if (file.error() != QFile::NoError) { QMessageBox::critical(this, "Fehler", "Fehler beim Schreiben der Datei."); } else { statusBar()->showMessage("Datei erfolgreich gespeichert!", 3000); } */ }