public Dimension getDimension(BaseUnit<?> unit) { if (unit.equals(SI.METRE)) return Dimension.LENGTH; if (unit.equals(SI.KILOGRAM)) return Dimension.MASS; if (unit.equals(SI.KELVIN)) return Dimension.TEMPERATURE; if (unit.equals(SI.SECOND)) return Dimension.TIME; if (unit.equals(SI.AMPERE)) return Dimension.ELECTRIC_CURRENT; if (unit.equals(SI.MOLE)) return Dimension.AMOUNT_OF_SUBSTANCE; if (unit.equals(SI.CANDELA)) return SI.WATT.getDimension(); return new Dimension(new BaseUnit<Dimensionless>("[" + unit.getSymbol() + "]")); }
public UnitConverter getTransform(BaseUnit<?> unit) { if (unit.equals(SI.METRE)) return METRE_TO_TIME; return Dimension.Model.STANDARD.getTransform(unit); } // // H_BAR (SECOND * JOULE = SECOND * (KILOGRAM / C^2 )) = 1
if (isNotBlank(nextValue.getCode())) { Unit<? extends javax.measure.quantity.Quantity> unit = Unit.valueOf(nextValue.getCode()); javax.measure.converter.UnitConverter dayConverter = unit.getConverterTo(NonSI.DAY); double dayValue = dayConverter.convert(nextValue.getValue().doubleValue()); Duration newValue = new Duration(); newValue.setSystem(SearchParamConstants.UCUM_NS); newValue.setCode(NonSI.DAY.toString()); newValue.setValue(dayValue); nextValue = newValue;
if (isNotBlank(nextValue.getCode())) { Unit<? extends javax.measure.quantity.Quantity> unit = Unit.valueOf(nextValue.getCode()); javax.measure.converter.UnitConverter dayConverter = unit.getConverterTo(NonSI.DAY); double dayValue = dayConverter.convert(nextValue.getValue().doubleValue()); Duration newValue = new Duration(); newValue.setSystem(SearchParamConstants.UCUM_NS); newValue.setCode(NonSI.DAY.toString()); newValue.setValue(dayValue); nextValue = newValue;
public Dimension getDimension(BaseUnit<?> unit) { if (unit.equals(SI.METRE)) return Dimension.LENGTH; if (unit.equals(SI.KILOGRAM)) return Dimension.MASS; if (unit.equals(SI.KELVIN)) return Dimension.TEMPERATURE; if (unit.equals(SI.SECOND)) return Dimension.TIME; if (unit.equals(SI.AMPERE)) return Dimension.ELECTRIC_CURRENT; if (unit.equals(SI.MOLE)) return Dimension.AMOUNT_OF_SUBSTANCE; if (unit.equals(SI.CANDELA)) return SI.WATT.getDimension(); return new Dimension(new BaseUnit<Dimensionless>("[" + unit.getSymbol() + "]")); }
public UnitConverter getTransform(BaseUnit<?> unit) { if (unit.equals(SI.METRE)) return METRE_TO_TIME; return Dimension.Model.STANDARD.getTransform(unit); } }
if (isNotBlank(nextValue.getCode())) { Unit<? extends Quantity> unit = Unit.valueOf(nextValue.getCode()); javax.measure.converter.UnitConverter dayConverter = unit.getConverterTo(NonSI.DAY); double dayValue = dayConverter.convert(nextValue.getValue().doubleValue()); DurationDt newValue = new DurationDt(); newValue.setSystem(SearchParamConstants.UCUM_NS); newValue.setCode(NonSI.DAY.toString()); newValue.setValue(dayValue); nextValue = newValue;
public Dimension getDimension(BaseUnit<?> unit) { if (unit.equals(SI.METRE)) return Dimension.LENGTH; if (unit.equals(SI.KILOGRAM)) return Dimension.MASS; if (unit.equals(SI.KELVIN)) return Dimension.TEMPERATURE; if (unit.equals(SI.SECOND)) return Dimension.TIME; if (unit.equals(SI.AMPERE)) return Dimension.ELECTRIC_CURRENT; if (unit.equals(SI.MOLE)) return Dimension.AMOUNT_OF_SUBSTANCE; if (unit.equals(SI.CANDELA)) return SI.WATT.getDimension(); return new Dimension(new BaseUnit<Dimensionless>("[" + unit.getSymbol() + "]")); }