@* Unit information. \noindent As unit information is required in several places, the enumeration listing these is moved to an external class. This derives from QObject only to take advantage of the meta-object system. There are no data members, however there are some convenience methods for working with unit data. @(units.h@>= #include #ifndef TypicaUnitsIncluded #define TypicaUnitsIncluded class Units: public QObject@/ {@/ @[Q_OBJECT@]@; @[Q_ENUMS(Unit)@]@; public:@/ enum Unit@/ {@/ Unitless = 0, Fahrenheit = 10144, Celsius = 10143, Kelvin = 10325, Rankine = 10145, Pound = 15876, Kilogram = 15877, Ounce = 1, Gram = 2 };@/ static double convertTemperature(double value, Unit fromUnit, Unit toUnit); static double convertRelativeTemperature(double value, Unit fromUnit, Unit toUnit); static bool isTemperatureUnit(Unit unit); static double convertWeight(double value, Unit fromUnit, Unit toUnit); static bool isWeightUnit(Unit unit);@/ }; #endif @ Methods are implemented in a separate file. @(units.cpp@>= #include "units.h" #include @ The |isTemperatureUnit()| method may seem counter-intuitive while the enum only contains represenations of temperature measurements, but there are plans to extend this later to extend hardware support to devices that do not directly measure temperature values and also to support the measurement of properties that cannot sensibly be represented as temperatures such as fuel pressure and control settings. @(units.cpp@>= bool Units::isTemperatureUnit(Unit unit) { return (unit == Fahrenheit || unit == Celsius || unit == Kelvin || unit == Rankine); } @ Temperature conversions can be performed by the |Units| class and should eliminate the need to have conversion code in multiple places. This method takes the measurement value, the unit that value is in, and the unit that we would like to have the measurement converted into. It returns the value as it would be expressed after unit conversion. A value of 0 is presently returned if either or both of the units to convert are not temperature units, however that behavior may change in the future. Any code activating that branch should be considered flawed. @(units.cpp@>= double Units::convertTemperature(double value, Unit fromUnit, Unit toUnit)@/ { if(!(isTemperatureUnit(fromUnit) && isTemperatureUnit(toUnit))) { return 0; } switch(fromUnit)@/ {@t\1@>@/ case Fahrenheit:@/ switch(toUnit)@/ {@t\1@>@/ case Fahrenheit:@/ return value; break; case Celsius:@/ return (value - 32.0) * 5.0 / 9.0; break; case Kelvin:@/ return (value + 459.67) * 5.0 / 9.0; break; case Rankine:@/ return value + 459.67; break; default:@/ qDebug() << "Warning: Non-sensical unit conversion."; break;@t\2@>@/ }@/ break; case Celsius: switch(toUnit)@/ {@t\1@>@/ case Fahrenheit:@/ return value * 9.0 / 5.0 + 32.0; break; case Celsius:@/ return value; break; case Kelvin:@/ return value + 273.15; break; case Rankine:@/ return (value + 273.15) * 9.0 / 5.0; break; default:@/ qDebug() << "Warning: Non-sensical unit conversion."; break;@t\2@>@/ }@/ break; case Kelvin: switch(toUnit)@/ {@t\1@>@/ case Fahrenheit:@/ return value * 5.0 / 9.0 - 459.67; break; case Celsius:@/ return value - 273.15; break; case Kelvin:@/ return value; break; case Rankine:@/ return value * 9.0 / 5.0; break; default:@/ qDebug() << "Warning: Non-sensical unit conversion."; break;@t\2@>@/ }@/ break; case Rankine: switch(toUnit)@/ {@t\1@>@/ case Fahrenheit:@/ return value - 457.67; break; case Celsius:@/ return (value - 491.67) * 5.0 / 9.0; break; case Kelvin:@/ return value * 5.0 / 9.0; break; case Rankine:@/ return value; break; default:@/ qDebug() << "Warning: Non-sensical unit conversion."; break;@t\2@>@/ }@/ break; default:@/ return 0; break;@t\2@>@/ } return 0; } @ Conversions are also provided for relative temperature measurements. @(units.cpp@>= double Units::convertRelativeTemperature(double value, Unit fromUnit, Unit toUnit) { if(!(isTemperatureUnit(fromUnit) && isTemperatureUnit(toUnit)))@/ { return 0; } switch(fromUnit)@/ {@t\1@>@/ case Fahrenheit: switch(toUnit)@/ {@t\1@>@/ case Fahrenheit:@/ return value; break; case Celsius:@/ return value * (5.0 / 9.0); break; case Kelvin:@/ return value * (5.0 / 9.0); break; case Rankine:@/ return value; break; default:@/ return 0; break;@t\2@>@/ } break; case Celsius: switch(toUnit)@/ {@t\1@>@/ case Fahrenheit:@/ return value * (9.0 / 5.0); break; case Celsius:@/ return value; break; case Kelvin:@/ return value; break; case Rankine:@/ return value * (9.0 / 5.0); break; default:@/ return 0; break;@t\2@>@/ } break; case Kelvin: switch(toUnit)@/ {@t\1@>@/ case Fahrenheit:@/ return value * (5.0 / 9.0); break; case Celsius:@/ return value; break; case Kelvin:@/ return value; break; case Rankine:@/ return value * (9.0 / 5.0); break; default:@/ return 0; break;@t\2@>@/ } break; case Rankine: switch(toUnit)@/ {@t\1@>@/ case Fahrenheit:@/ return value; break; case Celsius:@/ return value * (5.0 / 9.0); break; case Kelvin:@/ return value * (5.0 / 9.0); break; case Rankine:@/ return value; break; default: return 0; break;@t\2@>@/ } break; default:@/ return 0; break; } return 0; } @ Units of force are handled similarly to units of temperature. @(units.cpp@>= double Units::convertWeight(double value, Unit fromUnit, Unit toUnit) { if(isWeightUnit(fromUnit) && isWeightUnit(toUnit))@/ { switch(fromUnit)@/ {@t\1@>@/ case Pound: switch(toUnit)@/ {@t\1@>@/ case Pound:@/ return value; break; case Kilogram:@/ return value / 2.2; break; case Ounce:@/ return value * 16.0; break; case Gram:@/ return value / 0.0022; break; default:@/ return 0; break;@t\2@>@/ } break; case Kilogram: switch(toUnit)@/ {@t\1@>@/ case Pound:@/ return value * 2.2; break; case Kilogram:@/ return value; break; case Ounce:@/ return value * 35.2; break; case Gram:@/ return value * 1000.0; break; default:@/ return 0; break;@t\2@>@/ } break; case Ounce: switch(toUnit)@/ {@t\1@>@/ case Pound:@/ return value / 16.0; break; case Kilogram:@/ return value / 35.2; break; case Ounce:@/ return value; break; case Gram:@/ return value / 0.0352; break; default:@/ return 0; break;@t\2@>@/ } break; case Gram: switch(toUnit)@/ {@t\1@>@/ case Pound:@/ return value * 0.0022; break; case Kilogram:@/ return value / 1000.0; break; case Ounce:@/ return value * 0.0352; break; case Gram:@/ return value; break; default:@/ return 0; break;@t\2@>@/ } break; default:@/ return 0; break;@t\2@>@/ } } return 0; } bool Units::isWeightUnit(Unit unit) { return (unit == Pound || unit == Kilogram || unit == Ounce || unit == Gram); } @ This class is exposed to the host environment. Note the lack of constructor. We do not wish to create any instances, just have access to the |Unit| enumeration and conversion methods. Unfortunately, marking a static method |Q_INVOKABLE| will not work as per Qt bug \#18840. There seems to be no intention to correct this deficiency so instead of having something that just works, we must resort to the following hackery. @= QScriptValue Units_convertTemperature(QScriptContext *context, QScriptEngine *engine); QScriptValue Units_convertRelativeTemperature(QScriptContext *context, QScriptEngine *engine); QScriptValue Units_isTemperatureUnit(QScriptContext *context, QScriptEngine *engine); QScriptValue Units_convertWeight(QScriptContext *context, QScriptEngine *engine); QScriptValue Units_isWeightUnit(QScriptContext *context, QScriptEngine *engine); @ These functions are added as properties for the host environment. @= value = engine->newQMetaObject(&Units::staticMetaObject); value.setProperty("convertTemperature", engine->newFunction(Units_convertTemperature)); value.setProperty("convertRelativeTemperature", engine->newFunction(Units_convertRelativeTemperature)); value.setProperty("isTemperatureUnit", engine->newFunction(Units_isTemperatureUnit)); value.setProperty("convertWeight", engine->newFunction(Units_convertWeight)); value.setProperty("isWeightUnit", engine->newFunction(Units_isWeightUnit)); engine->globalObject().setProperty("Units", value); @ The implementation of these functions is trivial. @= QScriptValue Units_convertTemperature(QScriptContext *context, QScriptEngine *) { return QScriptValue(Units::convertTemperature(argument(0, context), argument(1, context), argument(2, context))); } QScriptValue Units_convertRelativeTemperature(QScriptContext *context, QScriptEngine *) { return QScriptValue(Units::convertRelativeTemperature( argument(0, context), argument(1, context), argument(2, context))); } QScriptValue Units_isTemperatureUnit(QScriptContext *context, QScriptEngine *) { return QScriptValue(Units::isTemperatureUnit(argument(0, context))); } QScriptValue Units_convertWeight(QScriptContext *context, QScriptEngine *) { return QScriptValue(Units::convertWeight(argument(0, context), argument(1, context), argument(2, context))); } QScriptValue Units_isWeightUnit(QScriptContext *context, QScriptEngine *) { return QScriptValue(Units::isWeightUnit(argument(0, context))); } @ To pass unit data in some circumstances, the inner enumeration must be registered as a meta-type with script conversions. @= Q_DECLARE_METATYPE(Units::Unit) @ A pair of conversion methods is required. @= QScriptValue Unit_toScriptValue(QScriptEngine *engine, const Units::Unit &value); void Unit_fromScriptValue(const QScriptValue &sv, Units::Unit &value); @ These are implemented thusly. @= QScriptValue Unit_toScriptValue(QScriptEngine *engine, const Units::Unit &value) { return engine->newVariant(QVariant(value)); } void Unit_fromScriptValue(const QScriptValue &sv, Units::Unit &value) { value = sv.toVariant().value(); } @ These conversion functions are registered. @= qScriptRegisterMetaType(engine, Unit_toScriptValue, Unit_fromScriptValue);