/** * @param value Longitude. The value domain and the interpretation are the same as for the text of the longitude element in KML (see notes below). */ public LocationPositionComponent setLongitude(long value) { this.longitude = new DecimalType(); this.longitude.setValue(value); return this; }
/** * @param value Longitude. The value domain and the interpretation are the same as for the text of the longitude element in KML (see notes below). */ public LocationPositionComponent setLongitude(double value) { this.longitude = new DecimalType(); this.longitude.setValue(value); return this; }
/** * @param value Latitude. The value domain and the interpretation are the same as for the text of the latitude element in KML (see notes below). */ public LocationPositionComponent setLatitude(long value) { this.latitude = new DecimalType(); this.latitude.setValue(value); return this; }
/** * @param value A correction factor that is applied to the sampled data points before they are added to the origin. */ public SampledData setFactor(long value) { this.factor = new DecimalType(); this.factor.setValue(value); return this; }
/** * @param value 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). */ public SampledData setUpperLimit(double value) { this.upperLimit = new DecimalType(); this.upperLimit.setValue(value); return this; }
/** * @param value Lens power measured in dioptres (0.25 units). */ public VisionPrescriptionLensSpecificationComponent setSphere(double value) { this.sphere = new DecimalType(); this.sphere.setValue(value); return this; }
/** * @param value Power adjustment for astigmatism measured in dioptres (0.25 units). */ public VisionPrescriptionLensSpecificationComponent setCylinder(double value) { this.cylinder = new DecimalType(); this.cylinder.setValue(value); return this; }
/** * @param value Back curvature measured in millimetres. */ public VisionPrescriptionLensSpecificationComponent setBackCurve(long value) { this.backCurve = new DecimalType(); this.backCurve.setValue(value); return this; }
/** * @param value Amount of prism to compensate for eye alignment in fractional units. */ public PrismComponent setAmount(BigDecimal value) { if (this.amount == null) this.amount = new DecimalType(); this.amount.setValue(value); return this; }
/** * @param value Amount of prism to compensate for eye alignment in fractional units. */ public PrismComponent setAmount(double value) { this.amount = new DecimalType(); this.amount.setValue(value); return this; }
/** * @param value Factor overriding the factor determined by the rules associated with the code. */ public ChargeItem setFactorOverride(double value) { this.factorOverride = new DecimalType(); this.factorOverride.setValue(value); return this; }
/** * @param value The factor that has been applied on the base price for calculating this component. */ public InvoiceLineItemPriceComponentComponent setFactor(double value) { this.factor = new DecimalType(); this.factor.setValue(value); return this; }
/** * @param value Lower bound of confidence interval. */ public RiskEvidenceSynthesisRiskEstimatePrecisionEstimateComponent setFrom(long value) { this.from = new DecimalType(); this.from.setValue(value); return this; }
/** * @param value The factor that has been applied on the base price for calculating this component. */ public ChargeItemDefinitionPropertyGroupPriceComponentComponent setFactor(long value) { this.factor = new DecimalType(); this.factor.setValue(value); return this; }
/** * @param value An amount that expresses the weighting (based on difficulty, cost and/or resource intensiveness) associated with the Contract Valued Item delivered. The concept of Points allows for assignment of point values for a Contract Valued Item, such that a monetary amount can be assigned to each point. */ public ValuedItemComponent setPoints(long value) { this.points = new DecimalType(); this.points.setValue(value); return this; }
/** * @param value A real number that represents a multiplier used in determining the overall value of services delivered and/or goods received. The concept of a Factor allows for a discount or surcharge multiplier to be applied to a monetary amount. */ public AddedItemDetailComponent setFactor(double value) { this.factor = new DecimalType(); this.factor.setValue(value); return this; }
/** * @param value A real number that represents a multiplier used in determining the overall value of services delivered and/or goods received. The concept of a Factor allows for a discount or surcharge multiplier to be applied to a monetary amount. */ public AddedItemSubDetailComponent setFactor(double value) { this.factor = new DecimalType(); this.factor.setValue(value); return this; }
/** * @param value The point estimate of the effect estimate. */ public EffectEvidenceSynthesisEffectEstimateComponent setValue(long value) { this.value = new DecimalType(); this.value.setValue(value); return this; }
/** * @param value Use 95 for a 95% confidence interval. */ public EffectEvidenceSynthesisEffectEstimatePrecisionEstimateComponent setLevel(double value) { this.level = new DecimalType(); this.level.setValue(value); return this; }
/** * @param value Upper bound of confidence interval. */ public EffectEvidenceSynthesisEffectEstimatePrecisionEstimateComponent setTo(long value) { this.to = new DecimalType(); this.to.setValue(value); return this; }