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The quick library for the Clinical Quality Language Java reference implementation

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//
// This file was generated by the Eclipse Implementation of JAXB, v3.0.2 
// See https://eclipse-ee4j.github.io/jaxb-ri 
// Any modifications to this file will be lost upon recompilation of the source schema. 
// Generated on: 2024.01.18 at 08:26:13 AM MST 
//


package org.hl7.fhir;

import java.util.ArrayList;
import java.util.Collection;
import java.util.List;
import jakarta.xml.bind.annotation.XmlAccessType;
import jakarta.xml.bind.annotation.XmlAccessorType;
import jakarta.xml.bind.annotation.XmlElement;
import jakarta.xml.bind.annotation.XmlType;
import org.jvnet.jaxb2_commons.lang.Equals2;
import org.jvnet.jaxb2_commons.lang.EqualsStrategy2;
import org.jvnet.jaxb2_commons.lang.HashCode2;
import org.jvnet.jaxb2_commons.lang.HashCodeStrategy2;
import org.jvnet.jaxb2_commons.lang.JAXBEqualsStrategy;
import org.jvnet.jaxb2_commons.lang.JAXBHashCodeStrategy;
import org.jvnet.jaxb2_commons.lang.JAXBToStringStrategy;
import org.jvnet.jaxb2_commons.lang.ToString2;
import org.jvnet.jaxb2_commons.lang.ToStringStrategy2;
import org.jvnet.jaxb2_commons.locator.ObjectLocator;
import org.jvnet.jaxb2_commons.locator.util.LocatorUtils;


/**
 * If the element is present, it must have either a @value, an @id, or extensions
 * 
 * 

Java class for DeviceMetric complex type. * *

The following schema fragment specifies the expected content contained within this class. * *

 * <complexType name="DeviceMetric">
 *   <complexContent>
 *     <extension base="{http://hl7.org/fhir}DomainResource">
 *       <sequence>
 *         <element name="type" type="{http://hl7.org/fhir}CodeableConcept"/>
 *         <element name="identifier" type="{http://hl7.org/fhir}Identifier"/>
 *         <element name="unit" type="{http://hl7.org/fhir}CodeableConcept" minOccurs="0"/>
 *         <element name="source" type="{http://hl7.org/fhir}Reference" minOccurs="0"/>
 *         <element name="parent" type="{http://hl7.org/fhir}Reference" minOccurs="0"/>
 *         <element name="operationalStatus" type="{http://hl7.org/fhir}DeviceMetricOperationalStatus" minOccurs="0"/>
 *         <element name="color" type="{http://hl7.org/fhir}DeviceMetricColor" minOccurs="0"/>
 *         <element name="category" type="{http://hl7.org/fhir}DeviceMetricCategory"/>
 *         <element name="measurementPeriod" type="{http://hl7.org/fhir}Timing" minOccurs="0"/>
 *         <element name="calibration" type="{http://hl7.org/fhir}DeviceMetric.Calibration" maxOccurs="unbounded" minOccurs="0"/>
 *       </sequence>
 *     </extension>
 *   </complexContent>
 * </complexType>
 * 
* * */ @XmlAccessorType(XmlAccessType.FIELD) @XmlType(name = "DeviceMetric", propOrder = { "type", "identifier", "unit", "source", "parent", "operationalStatus", "color", "category", "measurementPeriod", "calibration" }) public class DeviceMetric extends DomainResource implements Equals2, HashCode2, ToString2 { @XmlElement(required = true) protected CodeableConcept type; @XmlElement(required = true) protected Identifier identifier; protected CodeableConcept unit; protected Reference source; protected Reference parent; protected DeviceMetricOperationalStatus operationalStatus; protected DeviceMetricColor color; @XmlElement(required = true) protected DeviceMetricCategory category; protected Timing measurementPeriod; protected List calibration; /** * Gets the value of the type property. * * @return * possible object is * {@link CodeableConcept } * */ public CodeableConcept getType() { return type; } /** * Sets the value of the type property. * * @param value * allowed object is * {@link CodeableConcept } * */ public void setType(CodeableConcept value) { this.type = value; } /** * Gets the value of the identifier property. * * @return * possible object is * {@link Identifier } * */ public Identifier getIdentifier() { return identifier; } /** * Sets the value of the identifier property. * * @param value * allowed object is * {@link Identifier } * */ public void setIdentifier(Identifier value) { this.identifier = value; } /** * Gets the value of the unit property. * * @return * possible object is * {@link CodeableConcept } * */ public CodeableConcept getUnit() { return unit; } /** * Sets the value of the unit property. * * @param value * allowed object is * {@link CodeableConcept } * */ public void setUnit(CodeableConcept value) { this.unit = value; } /** * Gets the value of the source property. * * @return * possible object is * {@link Reference } * */ public Reference getSource() { return source; } /** * Sets the value of the source property. * * @param value * allowed object is * {@link Reference } * */ public void setSource(Reference value) { this.source = value; } /** * Gets the value of the parent property. * * @return * possible object is * {@link Reference } * */ public Reference getParent() { return parent; } /** * Sets the value of the parent property. * * @param value * allowed object is * {@link Reference } * */ public void setParent(Reference value) { this.parent = value; } /** * Gets the value of the operationalStatus property. * * @return * possible object is * {@link DeviceMetricOperationalStatus } * */ public DeviceMetricOperationalStatus getOperationalStatus() { return operationalStatus; } /** * Sets the value of the operationalStatus property. * * @param value * allowed object is * {@link DeviceMetricOperationalStatus } * */ public void setOperationalStatus(DeviceMetricOperationalStatus value) { this.operationalStatus = value; } /** * Gets the value of the color property. * * @return * possible object is * {@link DeviceMetricColor } * */ public DeviceMetricColor getColor() { return color; } /** * Sets the value of the color property. * * @param value * allowed object is * {@link DeviceMetricColor } * */ public void setColor(DeviceMetricColor value) { this.color = value; } /** * Gets the value of the category property. * * @return * possible object is * {@link DeviceMetricCategory } * */ public DeviceMetricCategory getCategory() { return category; } /** * Sets the value of the category property. * * @param value * allowed object is * {@link DeviceMetricCategory } * */ public void setCategory(DeviceMetricCategory value) { this.category = value; } /** * Gets the value of the measurementPeriod property. * * @return * possible object is * {@link Timing } * */ public Timing getMeasurementPeriod() { return measurementPeriod; } /** * Sets the value of the measurementPeriod property. * * @param value * allowed object is * {@link Timing } * */ public void setMeasurementPeriod(Timing value) { this.measurementPeriod = value; } /** * Gets the value of the calibration property. * *

* This accessor method returns a reference to the live list, * not a snapshot. Therefore any modification you make to the * returned list will be present inside the Jakarta XML Binding object. * This is why there is not a set method for the calibration property. * *

* For example, to add a new item, do as follows: *

     *    getCalibration().add(newItem);
     * 
* * *

* Objects of the following type(s) are allowed in the list * {@link DeviceMetricCalibration } * * */ public List getCalibration() { if (calibration == null) { calibration = new ArrayList(); } return this.calibration; } public DeviceMetric withType(CodeableConcept value) { setType(value); return this; } public DeviceMetric withIdentifier(Identifier value) { setIdentifier(value); return this; } public DeviceMetric withUnit(CodeableConcept value) { setUnit(value); return this; } public DeviceMetric withSource(Reference value) { setSource(value); return this; } public DeviceMetric withParent(Reference value) { setParent(value); return this; } public DeviceMetric withOperationalStatus(DeviceMetricOperationalStatus value) { setOperationalStatus(value); return this; } public DeviceMetric withColor(DeviceMetricColor value) { setColor(value); return this; } public DeviceMetric withCategory(DeviceMetricCategory value) { setCategory(value); return this; } public DeviceMetric withMeasurementPeriod(Timing value) { setMeasurementPeriod(value); return this; } public DeviceMetric withCalibration(DeviceMetricCalibration... values) { if (values!= null) { for (DeviceMetricCalibration value: values) { getCalibration().add(value); } } return this; } public DeviceMetric withCalibration(Collection values) { if (values!= null) { getCalibration().addAll(values); } return this; } @Override public DeviceMetric withText(Narrative value) { setText(value); return this; } @Override public DeviceMetric withContained(ResourceContainer... values) { if (values!= null) { for (ResourceContainer value: values) { getContained().add(value); } } return this; } @Override public DeviceMetric withContained(Collection values) { if (values!= null) { getContained().addAll(values); } return this; } @Override public DeviceMetric withExtension(Extension... values) { if (values!= null) { for (Extension value: values) { getExtension().add(value); } } return this; } @Override public DeviceMetric withExtension(Collection values) { if (values!= null) { getExtension().addAll(values); } return this; } @Override public DeviceMetric withModifierExtension(Extension... values) { if (values!= null) { for (Extension value: values) { getModifierExtension().add(value); } } return this; } @Override public DeviceMetric withModifierExtension(Collection values) { if (values!= null) { getModifierExtension().addAll(values); } return this; } @Override public DeviceMetric withId(Id value) { setId(value); return this; } @Override public DeviceMetric withMeta(Meta value) { setMeta(value); return this; } @Override public DeviceMetric withImplicitRules(Uri value) { setImplicitRules(value); return this; } @Override public DeviceMetric withLanguage(Code value) { setLanguage(value); return this; } @Override public boolean equals(ObjectLocator thisLocator, ObjectLocator thatLocator, Object object, EqualsStrategy2 strategy) { if ((object == null)||(this.getClass()!= object.getClass())) { return false; } if (this == object) { return true; } if (!super.equals(thisLocator, thatLocator, object, strategy)) { return false; } final DeviceMetric that = ((DeviceMetric) object); { CodeableConcept lhsType; lhsType = this.getType(); CodeableConcept rhsType; rhsType = that.getType(); if (!strategy.equals(LocatorUtils.property(thisLocator, "type", lhsType), LocatorUtils.property(thatLocator, "type", rhsType), lhsType, rhsType, (this.type!= null), (that.type!= null))) { return false; } } { Identifier lhsIdentifier; lhsIdentifier = this.getIdentifier(); Identifier rhsIdentifier; rhsIdentifier = that.getIdentifier(); if (!strategy.equals(LocatorUtils.property(thisLocator, "identifier", lhsIdentifier), LocatorUtils.property(thatLocator, "identifier", rhsIdentifier), lhsIdentifier, rhsIdentifier, (this.identifier!= null), (that.identifier!= null))) { return false; } } { CodeableConcept lhsUnit; lhsUnit = this.getUnit(); CodeableConcept rhsUnit; rhsUnit = that.getUnit(); if (!strategy.equals(LocatorUtils.property(thisLocator, "unit", lhsUnit), LocatorUtils.property(thatLocator, "unit", rhsUnit), lhsUnit, rhsUnit, (this.unit!= null), (that.unit!= null))) { return false; } } { Reference lhsSource; lhsSource = this.getSource(); Reference rhsSource; rhsSource = that.getSource(); if (!strategy.equals(LocatorUtils.property(thisLocator, "source", lhsSource), LocatorUtils.property(thatLocator, "source", rhsSource), lhsSource, rhsSource, (this.source!= null), (that.source!= null))) { return false; } } { Reference lhsParent; lhsParent = this.getParent(); Reference rhsParent; rhsParent = that.getParent(); if (!strategy.equals(LocatorUtils.property(thisLocator, "parent", lhsParent), LocatorUtils.property(thatLocator, "parent", rhsParent), lhsParent, rhsParent, (this.parent!= null), (that.parent!= null))) { return false; } } { DeviceMetricOperationalStatus lhsOperationalStatus; lhsOperationalStatus = this.getOperationalStatus(); DeviceMetricOperationalStatus rhsOperationalStatus; rhsOperationalStatus = that.getOperationalStatus(); if (!strategy.equals(LocatorUtils.property(thisLocator, "operationalStatus", lhsOperationalStatus), LocatorUtils.property(thatLocator, "operationalStatus", rhsOperationalStatus), lhsOperationalStatus, rhsOperationalStatus, (this.operationalStatus!= null), (that.operationalStatus!= null))) { return false; } } { DeviceMetricColor lhsColor; lhsColor = this.getColor(); DeviceMetricColor rhsColor; rhsColor = that.getColor(); if (!strategy.equals(LocatorUtils.property(thisLocator, "color", lhsColor), LocatorUtils.property(thatLocator, "color", rhsColor), lhsColor, rhsColor, (this.color!= null), (that.color!= null))) { return false; } } { DeviceMetricCategory lhsCategory; lhsCategory = this.getCategory(); DeviceMetricCategory rhsCategory; rhsCategory = that.getCategory(); if (!strategy.equals(LocatorUtils.property(thisLocator, "category", lhsCategory), LocatorUtils.property(thatLocator, "category", rhsCategory), lhsCategory, rhsCategory, (this.category!= null), (that.category!= null))) { return false; } } { Timing lhsMeasurementPeriod; lhsMeasurementPeriod = this.getMeasurementPeriod(); Timing rhsMeasurementPeriod; rhsMeasurementPeriod = that.getMeasurementPeriod(); if (!strategy.equals(LocatorUtils.property(thisLocator, "measurementPeriod", lhsMeasurementPeriod), LocatorUtils.property(thatLocator, "measurementPeriod", rhsMeasurementPeriod), lhsMeasurementPeriod, rhsMeasurementPeriod, (this.measurementPeriod!= null), (that.measurementPeriod!= null))) { return false; } } { List lhsCalibration; lhsCalibration = (((this.calibration!= null)&&(!this.calibration.isEmpty()))?this.getCalibration():null); List rhsCalibration; rhsCalibration = (((that.calibration!= null)&&(!that.calibration.isEmpty()))?that.getCalibration():null); if (!strategy.equals(LocatorUtils.property(thisLocator, "calibration", lhsCalibration), LocatorUtils.property(thatLocator, "calibration", rhsCalibration), lhsCalibration, rhsCalibration, ((this.calibration!= null)&&(!this.calibration.isEmpty())), ((that.calibration!= null)&&(!that.calibration.isEmpty())))) { return false; } } return true; } @Override public boolean equals(Object object) { final EqualsStrategy2 strategy = JAXBEqualsStrategy.getInstance(); return equals(null, null, object, strategy); } @Override public int hashCode(ObjectLocator locator, HashCodeStrategy2 strategy) { int currentHashCode = super.hashCode(locator, strategy); { CodeableConcept theType; theType = this.getType(); currentHashCode = strategy.hashCode(LocatorUtils.property(locator, "type", theType), currentHashCode, theType, (this.type!= null)); } { Identifier theIdentifier; theIdentifier = this.getIdentifier(); currentHashCode = strategy.hashCode(LocatorUtils.property(locator, "identifier", theIdentifier), currentHashCode, theIdentifier, (this.identifier!= null)); } { CodeableConcept theUnit; theUnit = this.getUnit(); currentHashCode = strategy.hashCode(LocatorUtils.property(locator, "unit", theUnit), currentHashCode, theUnit, (this.unit!= null)); } { Reference theSource; theSource = this.getSource(); currentHashCode = strategy.hashCode(LocatorUtils.property(locator, "source", theSource), currentHashCode, theSource, (this.source!= null)); } { Reference theParent; theParent = this.getParent(); currentHashCode = strategy.hashCode(LocatorUtils.property(locator, "parent", theParent), currentHashCode, theParent, (this.parent!= null)); } { DeviceMetricOperationalStatus theOperationalStatus; theOperationalStatus = this.getOperationalStatus(); currentHashCode = strategy.hashCode(LocatorUtils.property(locator, "operationalStatus", theOperationalStatus), currentHashCode, theOperationalStatus, (this.operationalStatus!= null)); } { DeviceMetricColor theColor; theColor = this.getColor(); currentHashCode = strategy.hashCode(LocatorUtils.property(locator, "color", theColor), currentHashCode, theColor, (this.color!= null)); } { DeviceMetricCategory theCategory; theCategory = this.getCategory(); currentHashCode = strategy.hashCode(LocatorUtils.property(locator, "category", theCategory), currentHashCode, theCategory, (this.category!= null)); } { Timing theMeasurementPeriod; theMeasurementPeriod = this.getMeasurementPeriod(); currentHashCode = strategy.hashCode(LocatorUtils.property(locator, "measurementPeriod", theMeasurementPeriod), currentHashCode, theMeasurementPeriod, (this.measurementPeriod!= null)); } { List theCalibration; theCalibration = (((this.calibration!= null)&&(!this.calibration.isEmpty()))?this.getCalibration():null); currentHashCode = strategy.hashCode(LocatorUtils.property(locator, "calibration", theCalibration), currentHashCode, theCalibration, ((this.calibration!= null)&&(!this.calibration.isEmpty()))); } return currentHashCode; } @Override public int hashCode() { final HashCodeStrategy2 strategy = JAXBHashCodeStrategy.getInstance(); return this.hashCode(null, strategy); } @Override public java.lang.String toString() { final ToStringStrategy2 strategy = JAXBToStringStrategy.getInstance(); final StringBuilder buffer = new StringBuilder(); append(null, buffer, strategy); return buffer.toString(); } @Override public StringBuilder append(ObjectLocator locator, StringBuilder buffer, ToStringStrategy2 strategy) { strategy.appendStart(locator, this, buffer); appendFields(locator, buffer, strategy); strategy.appendEnd(locator, this, buffer); return buffer; } @Override public StringBuilder appendFields(ObjectLocator locator, StringBuilder buffer, ToStringStrategy2 strategy) { super.appendFields(locator, buffer, strategy); { CodeableConcept theType; theType = this.getType(); strategy.appendField(locator, this, "type", buffer, theType, (this.type!= null)); } { Identifier theIdentifier; theIdentifier = this.getIdentifier(); strategy.appendField(locator, this, "identifier", buffer, theIdentifier, (this.identifier!= null)); } { CodeableConcept theUnit; theUnit = this.getUnit(); strategy.appendField(locator, this, "unit", buffer, theUnit, (this.unit!= null)); } { Reference theSource; theSource = this.getSource(); strategy.appendField(locator, this, "source", buffer, theSource, (this.source!= null)); } { Reference theParent; theParent = this.getParent(); strategy.appendField(locator, this, "parent", buffer, theParent, (this.parent!= null)); } { DeviceMetricOperationalStatus theOperationalStatus; theOperationalStatus = this.getOperationalStatus(); strategy.appendField(locator, this, "operationalStatus", buffer, theOperationalStatus, (this.operationalStatus!= null)); } { DeviceMetricColor theColor; theColor = this.getColor(); strategy.appendField(locator, this, "color", buffer, theColor, (this.color!= null)); } { DeviceMetricCategory theCategory; theCategory = this.getCategory(); strategy.appendField(locator, this, "category", buffer, theCategory, (this.category!= null)); } { Timing theMeasurementPeriod; theMeasurementPeriod = this.getMeasurementPeriod(); strategy.appendField(locator, this, "measurementPeriod", buffer, theMeasurementPeriod, (this.measurementPeriod!= null)); } { List theCalibration; theCalibration = (((this.calibration!= null)&&(!this.calibration.isEmpty()))?this.getCalibration():null); strategy.appendField(locator, this, "calibration", buffer, theCalibration, ((this.calibration!= null)&&(!this.calibration.isEmpty()))); } return buffer; } public void setCalibration(List value) { this.calibration = value; } }





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