/** * Gets the value(s) for <b>base</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * Information about the base definition of the element, provided to make it unncessary for tools to trace the deviation of the element through the derived and related profiles. This information is only provided where the element definition represents a constraint on another element definition, and must be present if there is a base element definition. * </p> */ public Base getBase() { if (myBase == null) { myBase = new Base(); } return myBase; }
/** * Gets the value(s) for <b>max</b> (). * creating it if it does * not exist. This method may return <code>null</code>. * * <p> * <b>Definition:</b> * Maximum cardinality of the base element identified by the path * </p> */ public String getMax() { return getMaxElement().getValue(); }
/** * Gets the value(s) for <b>min</b> (). * creating it if it does * not exist. This method may return <code>null</code>. * * <p> * <b>Definition:</b> * Minimum cardinality of the base element identified by the path * </p> */ public Integer getMin() { return getMinElement().getValue(); }
/** * Gets the value(s) for <b>path</b> (). * creating it if it does * not exist. This method may return <code>null</code>. * * <p> * <b>Definition:</b> * The Path that identifies the base element - this matches the ElementDefinition.path for that element. Across FHIR, there is only one base definition of any element - that is, an element definition on a [[[StructureDefinition]]] without a StructureDefinition.base * </p> */ public String getPath() { return getPathElement().getValue(); }
/** * Gets the value(s) for <b>base</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * Information about the base definition of the element, provided to make it unncessary for tools to trace the derviation of the element through the derived and related profiles. This information is only provided where the element definition represents a constraint on another element definition, and must be present if there is a base element definition * </p> */ public Base getBase() { if (myBase == null) { myBase = new Base(); } return myBase; }
/** * Gets the value(s) for <b>max</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * Maximum cardinality of the base element identified by the path * </p> */ public String getMax() { return getMaxElement().getValue(); }
/** * Gets the value(s) for <b>path</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * The Path that identifies the base element - this matches the ElementDefinition.path for that element. Across FHIR, there is only one base definition of any element - that is, an element definition on a [[[StructureDefinition]]] without a StructureDefinition.base * </p> */ public String getPath() { return getPathElement().getValue(); }
/** * Gets the value(s) for <b>min</b> (). * creating it if it does * not exist. Will not return <code>null</code>. * * <p> * <b>Definition:</b> * Minimum cardinality of the base element identified by the path * </p> */ public Integer getMin() { return getMinElement().getValue(); }