/** * Sets the value for <b>factor</b> () * * <p> * <b>Definition:</b> * A correction factor that is applied to the sampled data points before they are added to the origin * </p> */ public SampledDataDt setFactor( java.math.BigDecimal theValue) { myFactor = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>upperLimit</b> () * * <p> * <b>Definition:</b> * The upper limit of detection of the measured points. This is needed if any of the data points have the value \"U\" (higher than detection limit) * </p> */ public SampledDataDt setUpperLimit( long theValue) { myUpperLimit = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>durationMax</b> () * * <p> * <b>Definition:</b> * The upper limit of how long this thing happens for when it happens * </p> */ public Repeat setDurationMax( java.math.BigDecimal theValue) { myDurationMax = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>period</b> () * * <p> * <b>Definition:</b> * Indicates the duration of time over which repetitions are to occur; e.g. to express \"3 times per day\", 3 would be the frequency and \"1 day\" would be the period * </p> */ public Repeat setPeriod( double theValue) { myPeriod = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>periodMax</b> () * * <p> * <b>Definition:</b> * If present, indicates that the period is a range from [period] to [periodMax], allowing expressing concepts such as \"do this once every 3-5 days * </p> */ public Repeat setPeriodMax( java.math.BigDecimal theValue) { myPeriodMax = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>value</b> () * * <p> * <b>Definition:</b> * The value of the measured amount. The value includes an implicit precision in the presentation of the value * </p> */ public QuantityDt setValue( long theValue) { myValue = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>value</b> () * * <p> * <b>Definition:</b> * The value of the measured amount. The value includes an implicit precision in the presentation of the value * </p> */ public QuantityDt setValue( long theValue) { myValue = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>value</b> () * * <p> * <b>Definition:</b> * The value of the measured amount. The value includes an implicit precision in the presentation of the value * </p> */ public QuantityDt setValue( double theValue) { myValue = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>latitude</b> () * * <p> * <b>Definition:</b> * Latitude. The value domain and the interpretation are the same as for the text of the latitude element in KML (see notes below) * </p> */ public Position setLatitude( double theValue) { myLatitude = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>latitude</b> () * * <p> * <b>Definition:</b> * Latitude. The value domain and the interpretation are the same as for the text of the latitude element in KML (see notes below) * </p> */ public Position setLatitude( long theValue) { myLatitude = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>lowerLimit</b> () * * <p> * <b>Definition:</b> * The lower limit of detection of the measured points. This is needed if any of the data points have the value \"L\" (lower than detection limit) * </p> */ public SampledDataDt setLowerLimit( long theValue) { myLowerLimit = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>lowerLimit</b> () * * <p> * <b>Definition:</b> * The lower limit of detection of the measured points. This is needed if any of the data points have the value \"L\" (lower than detection limit) * </p> */ public SampledDataDt setLowerLimit( java.math.BigDecimal theValue) { myLowerLimit = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>upperLimit</b> () * * <p> * <b>Definition:</b> * The upper limit of detection of the measured points. This is needed if any of the data points have the value \"U\" (higher than detection limit) * </p> */ public SampledDataDt setUpperLimit( java.math.BigDecimal theValue) { myUpperLimit = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>durationMax</b> () * * <p> * <b>Definition:</b> * The upper limit of how long this thing happens for when it happens * </p> */ public Repeat setDurationMax( double theValue) { myDurationMax = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>period</b> () * * <p> * <b>Definition:</b> * Indicates the duration of time over which repetitions are to occur; e.g. to express \"3 times per day\", 3 would be the frequency and \"1 day\" would be the period * </p> */ public Repeat setPeriod( java.math.BigDecimal theValue) { myPeriod = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>factor</b> () * * <p> * <b>Definition:</b> * A correction factor that is applied to the sampled data points before they are added to the origin * </p> */ public SampledDataDt setFactor( long theValue) { myFactor = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>lowerLimit</b> () * * <p> * <b>Definition:</b> * The lower limit of detection of the measured points. This is needed if any of the data points have the value \"L\" (lower than detection limit) * </p> */ public SampledDataDt setLowerLimit( double theValue) { myLowerLimit = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>duration</b> () * * <p> * <b>Definition:</b> * How long this thing happens for when it happens * </p> */ public Repeat setDuration( java.math.BigDecimal theValue) { myDuration = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>durationMax</b> () * * <p> * <b>Definition:</b> * The upper limit of how long this thing happens for when it happens * </p> */ public Repeat setDurationMax( long theValue) { myDurationMax = new DecimalDt(theValue); return this; }
/** * Sets the value for <b>value</b> () * * <p> * <b>Definition:</b> * The value of the measured amount. The value includes an implicit precision in the presentation of the value * </p> */ public QuantityDt setValue( double theValue) { myValue = new DecimalDt(theValue); return this; }