/**************************************************************************** * * (c) 2009-2016 QGROUNDCONTROL PROJECT * * QGroundControl is licensed according to the terms in the file * COPYING.md in the root of the source code directory. * ****************************************************************************/ /// @file /// @author Don Gagne #include "Fact.h" #include "QGCMAVLink.h" #include #include static const char* kMissingMetadata = "Meta data pointer missing"; Fact::Fact(QObject* parent) : QObject(parent) , _componentId(-1) , _rawValue(0) , _type(FactMetaData::valueTypeInt32) , _metaData(NULL) , _sendValueChangedSignals(true) , _deferredValueChangeSignal(false) { FactMetaData* metaData = new FactMetaData(_type, this); setMetaData(metaData); // Better safe than sorry on object ownership QQmlEngine::setObjectOwnership(this, QQmlEngine::CppOwnership); } Fact::Fact(int componentId, QString name, FactMetaData::ValueType_t type, QObject* parent) : QObject(parent) , _name(name) , _componentId(componentId) , _rawValue(0) , _type(type) , _metaData(NULL) , _sendValueChangedSignals(true) , _deferredValueChangeSignal(false) { FactMetaData* metaData = new FactMetaData(_type, this); setMetaData(metaData); QQmlEngine::setObjectOwnership(this, QQmlEngine::CppOwnership); } Fact::Fact(const Fact& other, QObject* parent) : QObject(parent) { *this = other; QQmlEngine::setObjectOwnership(this, QQmlEngine::CppOwnership); } const Fact& Fact::operator=(const Fact& other) { _name = other._name; _componentId = other._componentId; _rawValue = other._rawValue; _type = other._type; _sendValueChangedSignals = other._sendValueChangedSignals; _deferredValueChangeSignal = other._deferredValueChangeSignal; if (_metaData && other._metaData) { *_metaData = *other._metaData; } else { _metaData = NULL; } return *this; } void Fact::forceSetRawValue(const QVariant& value) { if (_metaData) { QVariant typedValue; QString errorString; if (_metaData->convertAndValidateRaw(value, true /* convertOnly */, typedValue, errorString)) { _rawValue.setValue(typedValue); _sendValueChangedSignal(cookedValue()); //-- Must be in this order emit _containerRawValueChanged(rawValue()); emit rawValueChanged(_rawValue); } } else { qWarning() << kMissingMetadata; } } void Fact::setRawValue(const QVariant& value) { if (_metaData) { QVariant typedValue; QString errorString; if (_metaData->convertAndValidateRaw(value, true /* convertOnly */, typedValue, errorString)) { if (typedValue != _rawValue) { _rawValue.setValue(typedValue); _sendValueChangedSignal(cookedValue()); //-- Must be in this order emit _containerRawValueChanged(rawValue()); emit rawValueChanged(_rawValue); } } } else { qWarning() << kMissingMetadata; } } void Fact::setCookedValue(const QVariant& value) { if (_metaData) { setRawValue(_metaData->cookedTranslator()(value)); } else { qWarning() << kMissingMetadata; } } void Fact::setEnumStringValue(const QString& value) { if (_metaData) { int index = _metaData->enumStrings().indexOf(value); if (index != -1) { setCookedValue(_metaData->enumValues()[index]); } } else { qWarning() << kMissingMetadata; } } void Fact::setEnumIndex(int index) { if (_metaData) { setCookedValue(_metaData->enumValues()[index]); } else { qWarning() << kMissingMetadata; } } void Fact::_containerSetRawValue(const QVariant& value) { if(_rawValue != value) { _rawValue = value; _sendValueChangedSignal(cookedValue()); emit vehicleUpdated(_rawValue); emit rawValueChanged(_rawValue); } } QString Fact::name(void) const { return _name; } int Fact::componentId(void) const { return _componentId; } QVariant Fact::cookedValue(void) const { if (_metaData) { return _metaData->rawTranslator()(_rawValue); } else { qWarning() << kMissingMetadata; return _rawValue; } } QString Fact::enumStringValue(void) { if (_metaData) { int enumIndex = this->enumIndex(); if (enumIndex >= 0 && enumIndex < _metaData->enumStrings().count()) { return _metaData->enumStrings()[enumIndex]; } } else { qWarning() << kMissingMetadata; } return QString(); } int Fact::enumIndex(void) { static const double accuracy = 1.0 / 1000000.0; if (_metaData) { //-- Only enums have an index if(_metaData->enumValues().count()) { int index = 0; foreach (QVariant enumValue, _metaData->enumValues()) { if (enumValue == rawValue()) { return index; } //-- Float comparissons don't always work if(type() == FactMetaData::valueTypeFloat || type() == FactMetaData::valueTypeDouble) { double diff = fabs(enumValue.toDouble() - rawValue().toDouble()); if(diff < accuracy) { return index; } } index ++; } // Current value is not in list, add it manually _metaData->addEnumInfo(tr("Unknown: %1").arg(rawValue().toString()), rawValue()); emit enumsChanged(); return index; } } else { qWarning() << kMissingMetadata; } return -1; } QStringList Fact::enumStrings(void) const { if (_metaData) { return _metaData->enumStrings(); } else { qWarning() << kMissingMetadata; return QStringList(); } } QVariantList Fact::enumValues(void) const { if (_metaData) { return _metaData->enumValues(); } else { qWarning() << kMissingMetadata; return QVariantList(); } } void Fact::setEnumInfo(const QStringList& strings, const QVariantList& values) { if (_metaData) { _metaData->setEnumInfo(strings, values); } else { qWarning() << kMissingMetadata; } } QStringList Fact::bitmaskStrings(void) const { if (_metaData) { return _metaData->bitmaskStrings(); } else { qWarning() << kMissingMetadata; return QStringList(); } } QVariantList Fact::bitmaskValues(void) const { if (_metaData) { return _metaData->bitmaskValues(); } else { qWarning() << kMissingMetadata; return QVariantList(); } } QString Fact::_variantToString(const QVariant& variant, int decimalPlaces) const { QString valueString; switch (type()) { case FactMetaData::valueTypeFloat: { float fValue = variant.toFloat(); if (qIsNaN(fValue)) { valueString = QStringLiteral("--.--"); } else { valueString = QString("%1").arg(fValue, 0, 'f', decimalPlaces); } } break; case FactMetaData::valueTypeDouble: { double dValue = variant.toDouble(); if (qIsNaN(dValue)) { valueString = QStringLiteral("--.--"); } else { valueString = QString("%1").arg(dValue, 0, 'f', decimalPlaces); } } break; case FactMetaData::valueTypeElapsedTimeInSeconds: { double dValue = variant.toDouble(); if (qIsNaN(dValue)) { valueString = QStringLiteral("--:--:--"); } else { QTime time(0, 0, 0, 0); time = time.addSecs(dValue); valueString = time.toString(QStringLiteral("hh:mm:ss")); } } break; default: valueString = variant.toString(); break; } return valueString; } QString Fact::rawValueStringFullPrecision(void) const { return _variantToString(rawValue(), 18); } QString Fact::rawValueString(void) const { return _variantToString(rawValue(), decimalPlaces()); } QString Fact::cookedValueString(void) const { return _variantToString(cookedValue(), decimalPlaces()); } QVariant Fact::rawDefaultValue(void) const { if (_metaData) { if (!_metaData->defaultValueAvailable()) { qDebug() << "Access to unavailable default value"; } return _metaData->rawDefaultValue(); } else { qWarning() << kMissingMetadata; return QVariant(0); } } QVariant Fact::cookedDefaultValue(void) const { if (_metaData) { if (!_metaData->defaultValueAvailable()) { qDebug() << "Access to unavailable default value"; } return _metaData->cookedDefaultValue(); } else { qWarning() << kMissingMetadata; return QVariant(0); } } QString Fact::cookedDefaultValueString(void) const { return _variantToString(cookedDefaultValue(), decimalPlaces()); } FactMetaData::ValueType_t Fact::type(void) const { return _type; } QString Fact::shortDescription(void) const { if (_metaData) { return _metaData->shortDescription(); } else { qWarning() << kMissingMetadata; return QString(); } } QString Fact::longDescription(void) const { if (_metaData) { return _metaData->longDescription(); } else { qWarning() << kMissingMetadata; return QString(); } } QString Fact::rawUnits(void) const { if (_metaData) { return _metaData->rawUnits(); } else { qWarning() << kMissingMetadata; return QString(); } } QString Fact::cookedUnits(void) const { if (_metaData) { return _metaData->cookedUnits(); } else { qWarning() << kMissingMetadata; return QString(); } } QVariant Fact::rawMin(void) const { if (_metaData) { return _metaData->rawMin(); } else { qWarning() << kMissingMetadata; return QVariant(0); } } QVariant Fact::cookedMin(void) const { if (_metaData) { return _metaData->cookedMin(); } else { qWarning() << kMissingMetadata; return QVariant(0); } } QString Fact::cookedMinString(void) const { return _variantToString(cookedMin(), decimalPlaces()); } QVariant Fact::rawMax(void) const { if (_metaData) { return _metaData->rawMax(); } else { qWarning() << kMissingMetadata; return QVariant(0); } } QVariant Fact::cookedMax(void) const { if (_metaData) { return _metaData->cookedMax(); } else { qWarning() << kMissingMetadata; return QVariant(0); } } QString Fact::cookedMaxString(void) const { return _variantToString(cookedMax(), decimalPlaces()); } bool Fact::minIsDefaultForType(void) const { if (_metaData) { return _metaData->minIsDefaultForType(); } else { qWarning() << kMissingMetadata; return false; } } bool Fact::maxIsDefaultForType(void) const { if (_metaData) { return _metaData->maxIsDefaultForType(); } else { qWarning() << kMissingMetadata; return false; } } int Fact::decimalPlaces(void) const { if (_metaData) { return _metaData->decimalPlaces(); } else { qWarning() << kMissingMetadata; return FactMetaData::defaultDecimalPlaces; } } QString Fact::group(void) const { if (_metaData) { return _metaData->group(); } else { qWarning() << kMissingMetadata; return QString(); } } void Fact::setMetaData(FactMetaData* metaData) { _metaData = metaData; emit valueChanged(cookedValue()); } bool Fact::valueEqualsDefault(void) const { if (_metaData) { if (_metaData->defaultValueAvailable()) { return _metaData->rawDefaultValue() == rawValue(); } else { return false; } } else { qWarning() << kMissingMetadata; return false; } } bool Fact::defaultValueAvailable(void) const { if (_metaData) { return _metaData->defaultValueAvailable(); } else { qWarning() << kMissingMetadata; return false; } } QString Fact::validate(const QString& cookedValue, bool convertOnly) { if (_metaData) { QVariant typedValue; QString errorString; _metaData->convertAndValidateCooked(cookedValue, convertOnly, typedValue, errorString); return errorString; } else { qWarning() << kMissingMetadata; return QString("Internal error: Meta data pointer missing"); } } QVariant Fact::clamp(const QString& cookedValue) { if (_metaData) { QVariant typedValue; if(_metaData->clampValue(cookedValue, typedValue)) { return typedValue; } else { //-- If conversion failed, return current value return rawValue(); } } else { qWarning() << kMissingMetadata; } return QVariant(); } bool Fact::rebootRequired(void) const { if (_metaData) { return _metaData->rebootRequired(); } else { qWarning() << kMissingMetadata; return false; } } void Fact::setSendValueChangedSignals (bool sendValueChangedSignals) { if (sendValueChangedSignals != _sendValueChangedSignals) { _sendValueChangedSignals = sendValueChangedSignals; emit sendValueChangedSignalsChanged(_sendValueChangedSignals); } } void Fact::_sendValueChangedSignal(QVariant value) { if (_sendValueChangedSignals) { emit valueChanged(value); _deferredValueChangeSignal = false; } else { _deferredValueChangeSignal = true; } } void Fact::sendDeferredValueChangedSignal(void) { if (_deferredValueChangeSignal) { _deferredValueChangeSignal = false; emit valueChanged(cookedValue()); } } QString Fact::enumOrValueString(void) { if (_metaData) { if (_metaData->enumStrings().count()) { return enumStringValue(); } else { return cookedValueString(); } } else { qWarning() << kMissingMetadata; } return QString(); } double Fact::increment(void) const { if (_metaData) { return _metaData->increment(); } else { qWarning() << kMissingMetadata; } return std::numeric_limits::quiet_NaN(); } bool Fact::hasControl(void) const { if (_metaData) { return _metaData->hasControl(); } else { qWarning() << kMissingMetadata; return false; } } bool Fact::readOnly(void) const { if (_metaData) { return _metaData->readOnly(); } else { qWarning() << kMissingMetadata; return false; } }