org.hl7.fhir.r5.openehr.DV_QUANTIFIED Maven / Gradle / Ivy
package org.hl7.fhir.r5.openehr;
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// Generated on Thu, Mar 23, 2023 19:59+1100 for FHIR v5.0.0
import java.util.ArrayList;
import java.util.Date;
import java.util.List;
import org.hl7.fhir.utilities.Utilities;
import org.hl7.fhir.r5.openehr.Enumerations.*;
import org.hl7.fhir.exceptions.FHIRException;
import org.hl7.fhir.r5.model.*;
import org.hl7.fhir.instance.model.api.ICompositeType;
import ca.uhn.fhir.model.api.annotation.Child;
import ca.uhn.fhir.model.api.annotation.ChildOrder;
import ca.uhn.fhir.model.api.annotation.DatatypeDef;
import ca.uhn.fhir.model.api.annotation.Description;
import ca.uhn.fhir.model.api.annotation.Block;
/**
* Abstract class defining the concept of true quantified values, i.e. values which are not only ordered, but which have a precise magnitude.
*/
@DatatypeDef(name="DV_QUANTIFIED")
public abstract class DV_QUANTIFIED extends DV_ORDERED implements ICompositeType {
/**
* Optional status of magnitude with values:
* '=' : magnitude is a point value
* '<' : value is < magnitude
* '>' : value is > magnitude
* '<=' : value is <= magnitude
* '>=' : value is >= magnitude
* '~' : value is approximately magnitude
If not present, assumed meaning is '=' .
*/
@Child(name = "magnitude_status", type = {StringType.class}, order=0, min=0, max=1, modifier=false, summary=false)
@Description(shortDefinition="Optional status of magnitude: =, <, >, <=, >=, ~", formalDefinition="Optional status of magnitude with values:\r\n* '=' : magnitude is a point value\r\n* '<' : value is < magnitude\r\n* '>' : value is > magnitude\r\n* '<=' : value is <= magnitude\r\n* '>=' : value is >= magnitude\r\n* '~' : value is approximately magnitude\r\n\r\nIf not present, assumed meaning is '=' ." )
protected StringType magnitude_status;
/**
* Accuracy of measurement. Exact form of expression determined in descendants.
*/
@Child(name = "accuracy", type = {Base.class}, order=1, min=0, max=1, modifier=false, summary=false)
@Description(shortDefinition="Accuracy of measurement. Exact form of expression determined in descendants", formalDefinition="Accuracy of measurement. Exact form of expression determined in descendants." )
protected Base accuracy;
private static final long serialVersionUID = 1989595286L;
/**
* Constructor
*/
public DV_QUANTIFIED() {
super();
}
/**
* @return {@link #magnitude_status} (Optional status of magnitude with values:
* '=' : magnitude is a point value
* '<' : value is < magnitude
* '>' : value is > magnitude
* '<=' : value is <= magnitude
* '>=' : value is >= magnitude
* '~' : value is approximately magnitude
If not present, assumed meaning is '=' .). This is the underlying object with id, value and extensions. The accessor "getMagnitude_status" gives direct access to the value
*/
public StringType getMagnitude_statusElement() {
if (this.magnitude_status == null)
if (Configuration.errorOnAutoCreate())
throw new Error("Attempt to auto-create DV_QUANTIFIED.magnitude_status");
else if (Configuration.doAutoCreate())
this.magnitude_status = new StringType(); // bb
return this.magnitude_status;
}
public boolean hasMagnitude_statusElement() {
return this.magnitude_status != null && !this.magnitude_status.isEmpty();
}
public boolean hasMagnitude_status() {
return this.magnitude_status != null && !this.magnitude_status.isEmpty();
}
/**
* @param value {@link #magnitude_status} (Optional status of magnitude with values:
* '=' : magnitude is a point value
* '<' : value is < magnitude
* '>' : value is > magnitude
* '<=' : value is <= magnitude
* '>=' : value is >= magnitude
* '~' : value is approximately magnitude
If not present, assumed meaning is '=' .). This is the underlying object with id, value and extensions. The accessor "getMagnitude_status" gives direct access to the value
*/
public DV_QUANTIFIED setMagnitude_statusElement(StringType value) {
this.magnitude_status = value;
return this;
}
/**
* @return Optional status of magnitude with values:
* '=' : magnitude is a point value
* '<' : value is < magnitude
* '>' : value is > magnitude
* '<=' : value is <= magnitude
* '>=' : value is >= magnitude
* '~' : value is approximately magnitude
If not present, assumed meaning is '=' .
*/
public String getMagnitude_status() {
return this.magnitude_status == null ? null : this.magnitude_status.getValue();
}
/**
* @param value Optional status of magnitude with values:
* '=' : magnitude is a point value
* '<' : value is < magnitude
* '>' : value is > magnitude
* '<=' : value is <= magnitude
* '>=' : value is >= magnitude
* '~' : value is approximately magnitude
If not present, assumed meaning is '=' .
*/
public DV_QUANTIFIED setMagnitude_status(String value) {
if (Utilities.noString(value))
this.magnitude_status = null;
else {
if (this.magnitude_status == null)
this.magnitude_status = new StringType();
this.magnitude_status.setValue(value);
}
return this;
}
/**
* @return {@link #accuracy} (Accuracy of measurement. Exact form of expression determined in descendants.)
*/
public Base getAccuracy() {
return this.accuracy;
}
public boolean hasAccuracy() {
return this.accuracy != null && !this.accuracy.isEmpty();
}
/**
* @param value {@link #accuracy} (Accuracy of measurement. Exact form of expression determined in descendants.)
*/
public DV_QUANTIFIED setAccuracy(Base value) {
this.accuracy = value;
return this;
}
protected void listChildren(List children) {
super.listChildren(children);
children.add(new Property("magnitude_status", "string", "Optional status of magnitude with values:\r\n* '=' : magnitude is a point value\r\n* '<' : value is < magnitude\r\n* '>' : value is > magnitude\r\n* '<=' : value is <= magnitude\r\n* '>=' : value is >= magnitude\r\n* '~' : value is approximately magnitude\r\n\r\nIf not present, assumed meaning is '=' .", 0, 1, magnitude_status));
children.add(new Property("accuracy", "Base", "Accuracy of measurement. Exact form of expression determined in descendants.", 0, 1, accuracy));
}
@Override
public Property getNamedProperty(int _hash, String _name, boolean _checkValid) throws FHIRException {
switch (_hash) {
case 195430657: /*magnitude_status*/ return new Property("magnitude_status", "string", "Optional status of magnitude with values:\r\n* '=' : magnitude is a point value\r\n* '<' : value is < magnitude\r\n* '>' : value is > magnitude\r\n* '<=' : value is <= magnitude\r\n* '>=' : value is >= magnitude\r\n* '~' : value is approximately magnitude\r\n\r\nIf not present, assumed meaning is '=' .", 0, 1, magnitude_status);
case -2131707655: /*accuracy*/ return new Property("accuracy", "Base", "Accuracy of measurement. Exact form of expression determined in descendants.", 0, 1, accuracy);
default: return super.getNamedProperty(_hash, _name, _checkValid);
}
}
@Override
public Base[] getProperty(int hash, String name, boolean checkValid) throws FHIRException {
switch (hash) {
case 195430657: /*magnitude_status*/ return this.magnitude_status == null ? new Base[0] : new Base[] {this.magnitude_status}; // StringType
case -2131707655: /*accuracy*/ return this.accuracy == null ? new Base[0] : new Base[] {this.accuracy}; // Base
default: return super.getProperty(hash, name, checkValid);
}
}
@Override
public Base setProperty(int hash, String name, Base value) throws FHIRException {
switch (hash) {
case 195430657: // magnitude_status
this.magnitude_status = TypeConvertor.castToString(value); // StringType
return value;
case -2131707655: // accuracy
this.accuracy = (Base) value; // Base
return value;
default: return super.setProperty(hash, name, value);
}
}
@Override
public Base setProperty(String name, Base value) throws FHIRException {
if (name.equals("magnitude_status")) {
this.magnitude_status = TypeConvertor.castToString(value); // StringType
} else if (name.equals("accuracy")) {
this.accuracy = (Base) value; // Base
} else
return super.setProperty(name, value);
return value;
}
@Override
public Base makeProperty(int hash, String name) throws FHIRException {
switch (hash) {
case 195430657: return getMagnitude_statusElement();
case -2131707655: /*div*/
throw new Error("Unable to make an instance of the abstract property 'accuracy'");
default: return super.makeProperty(hash, name);
}
}
@Override
public String[] getTypesForProperty(int hash, String name) throws FHIRException {
switch (hash) {
case 195430657: /*magnitude_status*/ return new String[] {"string"};
case -2131707655: /*accuracy*/ return new String[] {"Base"};
default: return super.getTypesForProperty(hash, name);
}
}
@Override
public Base addChild(String name) throws FHIRException {
if (name.equals("magnitude_status")) {
throw new FHIRException("Cannot call addChild on a singleton property DV_QUANTIFIED.magnitude_status");
}
else if (name.equals("accuracy")) {
throw new FHIRException("Cannot call addChild on an abstract type DV_QUANTIFIED.accuracy");
}
else
return super.addChild(name);
}
public String fhirType() {
return "DV_QUANTIFIED";
}
public abstract DV_QUANTIFIED copy();
public void copyValues(DV_QUANTIFIED dst) {
super.copyValues(dst);
dst.magnitude_status = magnitude_status == null ? null : magnitude_status.copy();
dst.accuracy = accuracy == null ? null : accuracy.copy();
}
@Override
public boolean equalsDeep(Base other_) {
if (!super.equalsDeep(other_))
return false;
if (!(other_ instanceof DV_QUANTIFIED))
return false;
DV_QUANTIFIED o = (DV_QUANTIFIED) other_;
return compareDeep(magnitude_status, o.magnitude_status, true) && compareDeep(accuracy, o.accuracy, true)
;
}
@Override
public boolean equalsShallow(Base other_) {
if (!super.equalsShallow(other_))
return false;
if (!(other_ instanceof DV_QUANTIFIED))
return false;
DV_QUANTIFIED o = (DV_QUANTIFIED) other_;
return compareValues(magnitude_status, o.magnitude_status, true);
}
public boolean isEmpty() {
return super.isEmpty() && ca.uhn.fhir.util.ElementUtil.isEmpty(magnitude_status, accuracy
);
}
}
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