org.cqframework.cql.elm.execution.Equivalent Maven / Gradle / Ivy
//
// This file was generated by the JavaTM Architecture for XML Binding(JAXB) Reference Implementation, v2.3.0
// See https://javaee.github.io/jaxb-v2/
// Any modifications to this file will be lost upon recompilation of the source schema.
// Generated on: 2020.03.24 at 04:05:23 PM UTC
//
package org.cqframework.cql.elm.execution;
import java.util.Collection;
import javax.xml.bind.annotation.XmlAccessType;
import javax.xml.bind.annotation.XmlAccessorType;
import javax.xml.bind.annotation.XmlType;
import javax.xml.namespace.QName;
import org.jvnet.jaxb2_commons.lang.Equals;
import org.jvnet.jaxb2_commons.lang.EqualsStrategy;
import org.jvnet.jaxb2_commons.lang.HashCode;
import org.jvnet.jaxb2_commons.lang.HashCodeStrategy;
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.ToString;
import org.jvnet.jaxb2_commons.lang.ToStringStrategy;
import org.jvnet.jaxb2_commons.locator.ObjectLocator;
/**
* The Equivalent operator returns true if the arguments are the same value, or if they are both null; and false otherwise.
*
* For tuple types, this means that two tuple values are equivalent if and only if the tuples are of the same type, and the values for all elements by name are equivalent.
*
* For list types, this means that two lists are equivalent if and only if the lists contain elements of the same type, have the same number of elements, and for each element in the lists, in order, the elements are equivalent.
*
* For interval types, this means that two intervals are equivalent if and only if the intervals are over the same point type, and the starting and ending points of the intervals as determined by the Start and End operators are equivalent.
*
* For date/time values, the comparison is performed in the same way as it is for equality, except that if one input has a value for a given precision and the other does not, the comparison stops and the result is false, rather than null.
*
* For Code values, equivalence is defined based on the code and system elements only. The display and version elements are ignored for the purposes of determining Code equivalence.
*
* For Concept values, equivalence is defined as a non-empty intersection of the codes in each Concept.
*
* Note that this operator will always return true or false, even if either or both of its arguments are null or contain null components.
*
* Java class for Equivalent complex type.
*
*
The following schema fragment specifies the expected content contained within this class.
*
*
* <complexType name="Equivalent">
* <complexContent>
* <extension base="{urn:hl7-org:elm:r1}BinaryExpression">
* </extension>
* </complexContent>
* </complexType>
*
*
*
*/
@XmlAccessorType(XmlAccessType.FIELD)
@XmlType(name = "Equivalent", namespace = "urn:hl7-org:elm:r1")
public class Equivalent
extends BinaryExpression
implements Equals, HashCode, ToString
{
@Override
public Equivalent withOperand(Expression... values) {
if (values!= null) {
for (Expression value: values) {
getOperand().add(value);
}
}
return this;
}
@Override
public Equivalent withOperand(Collection values) {
if (values!= null) {
getOperand().addAll(values);
}
return this;
}
@Override
public Equivalent withSignature(TypeSpecifier... values) {
if (values!= null) {
for (TypeSpecifier value: values) {
getSignature().add(value);
}
}
return this;
}
@Override
public Equivalent withSignature(Collection values) {
if (values!= null) {
getSignature().addAll(values);
}
return this;
}
@Override
public Equivalent withAnnotation(Object... values) {
if (values!= null) {
for (Object value: values) {
getAnnotation().add(value);
}
}
return this;
}
@Override
public Equivalent withAnnotation(Collection