/** * Gets the value(s) for <b>low</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * The low limit. The boundary is inclusive. * </p> */ public SimpleQuantityDt getLow() { if (myLow == null) { myLow = new SimpleQuantityDt(); } return myLow; }
/** * Constructor */ @SimpleSetter public SimpleQuantityDt(@SimpleSetter.Parameter(name = "theComparator") QuantityComparatorEnum theComparator, @SimpleSetter.Parameter(name = "theValue") double theValue, @SimpleSetter.Parameter(name = "theUnits") String theUnits) { setValue(theValue); setComparator(theComparator); setUnits(theUnits); }
/** * Constructor */ @SimpleSetter public SimpleQuantityDt(@SimpleSetter.Parameter(name="theValue") double theValue, @SimpleSetter.Parameter(name="theSystem") String theSystem, @SimpleSetter.Parameter(name="theUnits") String theUnits) { setValue(theValue); setSystem(theSystem); setUnits(theUnits); }
/** * Constructor */ @SimpleSetter public SimpleQuantityDt(@SimpleSetter.Parameter(name = "theComparator") QuantityComparatorEnum theComparator, @SimpleSetter.Parameter(name = "theValue") long theValue, @SimpleSetter.Parameter(name = "theUnits") String theUnits) { setValue(theValue); setComparator(theComparator); setUnit(theUnits); }
SimpleQuantityDt low = new SimpleQuantityDt(); low.setValue(45).setSystem("http://unitsofmeasure.org").setCode("kg"); observation.getReferenceRangeFirstRep().setLow(low); SimpleQuantityDt high = new SimpleQuantityDt(); low.setValue(90).setSystem("http://unitsofmeasure.org").setCode("kg"); observation.getReferenceRangeFirstRep().setHigh(high);
/** * Constructor */ @SimpleSetter public SimpleQuantityDt(@SimpleSetter.Parameter(name="theValue") double theValue) { setValue(theValue); }
/** * Constructor */ @SimpleSetter public SimpleQuantityDt(@SimpleSetter.Parameter(name = "theComparator") QuantityComparatorEnum theComparator, @SimpleSetter.Parameter(name = "theValue") double theValue, @SimpleSetter.Parameter(name = "theUnits") String theUnits) { setValue(theValue); setComparator(theComparator); setUnit(theUnits); }
/** * Constructor */ @SimpleSetter public SimpleQuantityDt(@SimpleSetter.Parameter(name="theValue") long theValue) { setValue(theValue); }
/** * Gets the value(s) for <b>origin</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * The base quantity that a measured value of zero represents. In addition, this provides the units of the entire measurement series * </p> */ public SimpleQuantityDt getOrigin() { if (myOrigin == null) { myOrigin = new SimpleQuantityDt(); } return myOrigin; }
/** * Constructor */ @SimpleSetter public SimpleQuantityDt(@SimpleSetter.Parameter(name = "theComparator") QuantityComparatorEnum theComparator, @SimpleSetter.Parameter(name = "theValue") long theValue, @SimpleSetter.Parameter(name = "theUnits") String theUnits) { setValue(theValue); setComparator(theComparator); setUnits(theUnits); }
/** * Constructor */ @SimpleSetter public SimpleQuantityDt(@SimpleSetter.Parameter(name="theValue") long theValue) { setValue(theValue); }
/** * Gets the value(s) for <b>high</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * The high limit. The boundary is inclusive. * </p> */ public SimpleQuantityDt getHigh() { if (myHigh == null) { myHigh = new SimpleQuantityDt(); } return myHigh; }
/** * Constructor */ @SimpleSetter public SimpleQuantityDt(@SimpleSetter.Parameter(name="theValue") double theValue) { setValue(theValue); }
/** * Gets the value(s) for <b>quantity</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * The quantity of specimen collected; for instance the volume of a blood sample, or the physical measurement of an anatomic pathology sample. * </p> */ public SimpleQuantityDt getQuantity() { if (myQuantity == null) { myQuantity = new SimpleQuantityDt(); } return myQuantity; }
/** * Gets the value(s) for <b>quantity</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * Specifies the units by which the Contract Valued Item is measured or counted, and quantifies the countable or measurable Contract Valued Item instances. * </p> */ public SimpleQuantityDt getQuantity() { if (myQuantity == null) { myQuantity = new SimpleQuantityDt(); } return myQuantity; }
/** * Gets the value(s) for <b>dailyAmount</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * Identifies the quantity expected to be consumed in a given day. * </p> */ public SimpleQuantityDt getDailyAmount() { if (myDailyAmount == null) { myDailyAmount = new SimpleQuantityDt(); } return myDailyAmount; }
/** * Gets the value(s) for <b>origin</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * The base quantity that a measured value of zero represents. In addition, this provides the units of the entire measurement series * </p> */ public SimpleQuantityDt getOrigin() { if (myOrigin == null) { myOrigin = new SimpleQuantityDt(); } return myOrigin; }