/** * @return {@link #numTP} (The number of true positives if the GQ score threshold was set to "score" field value.) */ public IntegerType addNumTPElement() {//2 IntegerType t = new IntegerType(); if (this.numTP == null) this.numTP = new ArrayList<IntegerType>(); this.numTP.add(t); return t; }
/** * @param value The total number of concepts in the expansion. If the number of concept nodes in this resource is less than the stated number, then the server can return more using the offset parameter. */ public ValueSetExpansionComponent setTotal(int value) { if (this.total == null) this.total = new IntegerType(); this.total.setValue(value); return this; }
/** * @return {@link #value} (The information determined as a result of making the observation, if the information has a simple value.) */ public IntegerType getValueIntegerType() throws FHIRException { if (this.value == null) this.value = new IntegerType(); if (!(this.value instanceof IntegerType)) throw new FHIRException("Type mismatch: the type IntegerType was expected, but "+this.value.getClass().getName()+" was encountered"); return (IntegerType) this.value; }
public static IntegerType newInteger(java.lang.Integer value) { if (value == null) return null; IntegerType res = new IntegerType(); res.setValue(value); return res; }
/** * @param value The number of members of the population in this stratum. */ public StratifierGroupPopulationComponent setCount(int value) { if (this.count == null) this.count = new IntegerType(); this.count.setValue(value); return this; }
/** * @return {@link #multipleBirth} (Indicates whether the patient is part of a multiple (boolean) or indicates the actual birth order (integer).) */ public IntegerType getMultipleBirthIntegerType() throws FHIRException { if (this.multipleBirth == null) this.multipleBirth = new IntegerType(); if (!(this.multipleBirth instanceof IntegerType)) throw new FHIRException("Type mismatch: the type IntegerType was expected, but "+this.multipleBirth.getClass().getName()+" was encountered"); return (IntegerType) this.multipleBirth; }
/** * @param value Abstract name given to an origin server in this test script. The name is provided as a number starting at 1. */ public TestScriptOriginComponent setIndex(int value) { if (this.index == null) this.index = new IntegerType(); this.index.setValue(value); return this; }
/** * @param value Which server these requirements apply to. */ public TestScriptMetadataCapabilityComponent setDestination(int value) { if (this.destination == null) this.destination = new IntegerType(); this.destination.setValue(value); return this; }
/** * @param value The server where the request message is destined for. Must be one of the server numbers listed in TestScript.destination section. */ public SetupActionOperationComponent setDestination(int value) { if (this.destination == null) this.destination = new IntegerType(); this.destination.setValue(value); return this; }
/** * @param value The server where the request message originates from. Must be one of the server numbers listed in TestScript.origin section. */ public SetupActionOperationComponent setOrigin(int value) { if (this.origin == null) this.origin = new IntegerType(); this.origin.setValue(value); return this; }
/** * @param value Number of studies included in this evidence synthesis. */ public EffectEvidenceSynthesisSampleSizeComponent setNumberOfStudies(int value) { if (this.numberOfStudies == null) this.numberOfStudies = new IntegerType(); this.numberOfStudies.setValue(value); return this; }
/** * @return {@link #quantity} (Number of discrete units within this product.). This is the underlying object with id, value and extensions. The accessor "getQuantity" gives direct access to the value */ public IntegerType getQuantityElement() { if (this.quantity == null) if (Configuration.errorOnAutoCreate()) throw new Error("Attempt to auto-create BiologicallyDerivedProduct.quantity"); else if (Configuration.doAutoCreate()) this.quantity = new IntegerType(); // bb return this.quantity; }
/** * @return {@link #windowEnd} (End position of the window on the reference sequence. If the coordinate system is 0-based then end is exclusive and does not include the last position. If the coordinate system is 1-base, then end is inclusive and includes the last position.). This is the underlying object with id, value and extensions. The accessor "getWindowEnd" gives direct access to the value */ public IntegerType getWindowEndElement() { if (this.windowEnd == null) if (Configuration.errorOnAutoCreate()) throw new Error("Attempt to auto-create MolecularSequenceReferenceSeqComponent.windowEnd"); else if (Configuration.doAutoCreate()) this.windowEnd = new IntegerType(); // bb return this.windowEnd; }
/** * @return {@link #start} (Structural variant outer start. If the coordinate system is either 0-based or 1-based, then start position is inclusive.). This is the underlying object with id, value and extensions. The accessor "getStart" gives direct access to the value */ public IntegerType getStartElement() { if (this.start == null) if (Configuration.errorOnAutoCreate()) throw new Error("Attempt to auto-create MolecularSequenceStructureVariantOuterComponent.start"); else if (Configuration.doAutoCreate()) this.start = new IntegerType(); // bb return this.start; }
/** * @return {@link #coordinateSystem} (Whether the sequence is numbered starting at 0 (0-based numbering or coordinates, inclusive start, exclusive end) or starting at 1 (1-based numbering, inclusive start and inclusive end).). This is the underlying object with id, value and extensions. The accessor "getCoordinateSystem" gives direct access to the value */ public IntegerType getCoordinateSystemElement() { if (this.coordinateSystem == null) if (Configuration.errorOnAutoCreate()) throw new Error("Attempt to auto-create MolecularSequence.coordinateSystem"); else if (Configuration.doAutoCreate()) this.coordinateSystem = new IntegerType(); // bb return this.coordinateSystem; }
/** * @return {@link #subunit} (Index of linear sequences of nucleic acids in order of decreasing length. Sequences of the same length will be ordered by molecular weight. Subunits that have identical sequences will be repeated and have sequential subscripts.). This is the underlying object with id, value and extensions. The accessor "getSubunit" gives direct access to the value */ public IntegerType getSubunitElement() { if (this.subunit == null) if (Configuration.errorOnAutoCreate()) throw new Error("Attempt to auto-create SubstanceNucleicAcidSubunitComponent.subunit"); else if (Configuration.doAutoCreate()) this.subunit = new IntegerType(); // bb return this.subunit; }
/** * @return {@link #length} (The length of the sequence shall be captured.). This is the underlying object with id, value and extensions. The accessor "getLength" gives direct access to the value */ public IntegerType getLengthElement() { if (this.length == null) if (Configuration.errorOnAutoCreate()) throw new Error("Attempt to auto-create SubstanceNucleicAcidSubunitComponent.length"); else if (Configuration.doAutoCreate()) this.length = new IntegerType(); // bb return this.length; }
/** * @return {@link #subunit} (Index of primary sequences of amino acids linked through peptide bonds in order of decreasing length. Sequences of the same length will be ordered by molecular weight. Subunits that have identical sequences will be repeated and have sequential subscripts.). This is the underlying object with id, value and extensions. The accessor "getSubunit" gives direct access to the value */ public IntegerType getSubunitElement() { if (this.subunit == null) if (Configuration.errorOnAutoCreate()) throw new Error("Attempt to auto-create SubstanceProteinSubunitComponent.subunit"); else if (Configuration.doAutoCreate()) this.subunit = new IntegerType(); // bb return this.subunit; }
/** * @return {@link #count} (The number of members of the population.). This is the underlying object with id, value and extensions. The accessor "getCount" gives direct access to the value */ public IntegerType getCountElement() { if (this.count == null) if (Configuration.errorOnAutoCreate()) throw new Error("Attempt to auto-create MeasureReportGroupPopulationComponent.count"); else if (Configuration.doAutoCreate()) this.count = new IntegerType(); // bb return this.count; }
/** * @return {@link #maxLength} (Indicates the maximum length in characters that is permitted to be present in conformant instances and which is expected to be supported by conformant consumers that support the element.). This is the underlying object with id, value and extensions. The accessor "getMaxLength" gives direct access to the value */ public IntegerType getMaxLengthElement() { if (this.maxLength == null) if (Configuration.errorOnAutoCreate()) throw new Error("Attempt to auto-create ElementDefinition.maxLength"); else if (Configuration.doAutoCreate()) this.maxLength = new IntegerType(); // bb return this.maxLength; }