ca.uhn.hl7v2.model.v28.segment.OM2 Maven / Gradle / Ivy
/*
* This class is an auto-generated source file for a HAPI
* HL7 v2.x standard structure class.
*
* For more information, visit: http://hl7api.sourceforge.net/
*
* The contents of this file are subject to the Mozilla Public License Version 1.1
* (the "License"); you may not use this file except in compliance with the License.
* You may obtain a copy of the License at http://www.mozilla.org/MPL/
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the
* specific language governing rights and limitations under the License.
*
* The Original Code is "[file_name]". Description:
* "[one_line_description]"
*
* The Initial Developer of the Original Code is University Health Network. Copyright (C)
* 2012. All Rights Reserved.
*
* Contributor(s): ______________________________________.
*
* Alternatively, the contents of this file may be used under the terms of the
* GNU General Public License (the "GPL"), in which case the provisions of the GPL are
* applicable instead of those above. If you wish to allow use of your version of this
* file only under the terms of the GPL and not to allow others to use your version
* of this file under the MPL, indicate your decision by deleting the provisions above
* and replace them with the notice and other provisions required by the GPL License.
* If you do not delete the provisions above, a recipient may use your version of
* this file under either the MPL or the GPL.
*
*/
package ca.uhn.hl7v2.model.v28.segment;
// import ca.uhn.hl7v2.model.v28.group.*;
import ca.uhn.hl7v2.model.v28.datatype.*;
import ca.uhn.hl7v2.HL7Exception;
import ca.uhn.hl7v2.parser.ModelClassFactory;
import ca.uhn.hl7v2.parser.DefaultModelClassFactory;
import ca.uhn.hl7v2.model.AbstractMessage;
import ca.uhn.hl7v2.model.Group;
import ca.uhn.hl7v2.model.Type;
import ca.uhn.hl7v2.model.AbstractSegment;
import ca.uhn.hl7v2.model.Varies;
/**
*Represents an HL7 OM2 message segment (Numeric Observation).
* This segment has the following fields:
*
* - OM2-1: Sequence Number - Test/Observation Master File (NM) optional
*
- OM2-2: Units of Measure (CWE) optional
*
- OM2-3: Range of Decimal Precision (NM) optional repeating
*
- OM2-4: Corresponding SI Units of Measure (CWE) optional
*
- OM2-5: SI Conversion Factor (TX) optional
*
- OM2-6: Reference (Normal) Range for Ordinal and Continuous Observations (RFR) optional repeating
*
- OM2-7: Critical Range for Ordinal and Continuous Observations (RFR) optional repeating
*
- OM2-8: Absolute Range for Ordinal and Continuous Observations (RFR) optional
*
- OM2-9: Delta Check Criteria (DLT) optional repeating
*
- OM2-10: Minimum Meaningful Increments (NM) optional
*
*/
@SuppressWarnings("unused")
public class OM2 extends AbstractSegment {
/**
* Creates a new OM2 segment
*/
public OM2(Group parent, ModelClassFactory factory) {
super(parent, factory);
init(factory);
}
private void init(ModelClassFactory factory) {
try {
this.add(NM.class, false, 1, 0, new Object[]{ getMessage() }, "Sequence Number - Test/Observation Master File");
this.add(CWE.class, false, 1, 0, new Object[]{ getMessage() }, "Units of Measure");
this.add(NM.class, false, 0, 0, new Object[]{ getMessage() }, "Range of Decimal Precision");
this.add(CWE.class, false, 1, 0, new Object[]{ getMessage() }, "Corresponding SI Units of Measure");
this.add(TX.class, false, 1, 0, new Object[]{ getMessage() }, "SI Conversion Factor");
this.add(RFR.class, false, 0, 0, new Object[]{ getMessage() }, "Reference (Normal) Range for Ordinal and Continuous Observations");
this.add(RFR.class, false, 0, 0, new Object[]{ getMessage() }, "Critical Range for Ordinal and Continuous Observations");
this.add(RFR.class, false, 1, 0, new Object[]{ getMessage() }, "Absolute Range for Ordinal and Continuous Observations");
this.add(DLT.class, false, 0, 0, new Object[]{ getMessage() }, "Delta Check Criteria");
this.add(NM.class, false, 1, 0, new Object[]{ getMessage() }, "Minimum Meaningful Increments");
} catch(HL7Exception e) {
log.error("Unexpected error creating OM2 - this is probably a bug in the source code generator.", e);
}
}
/**
* Returns
* OM2-1: "Sequence Number - Test/Observation Master File" - creates it if necessary
*/
public NM getSequenceNumberTestObservationMasterFile() {
NM retVal = this.getTypedField(1, 0);
return retVal;
}
/**
* Returns
* OM2-1: "Sequence Number - Test/Observation Master File" - creates it if necessary
*/
public NM getOm21_SequenceNumberTestObservationMasterFile() {
NM retVal = this.getTypedField(1, 0);
return retVal;
}
/**
* Returns
* OM2-2: "Units of Measure" - creates it if necessary
*/
public CWE getUnitsOfMeasure() {
CWE retVal = this.getTypedField(2, 0);
return retVal;
}
/**
* Returns
* OM2-2: "Units of Measure" - creates it if necessary
*/
public CWE getOm22_UnitsOfMeasure() {
CWE retVal = this.getTypedField(2, 0);
return retVal;
}
/**
* Returns all repetitions of Range of Decimal Precision (OM2-3).
*/
public NM[] getRangeOfDecimalPrecision() {
NM[] retVal = this.getTypedField(3, new NM[0]);
return retVal;
}
/**
* Returns all repetitions of Range of Decimal Precision (OM2-3).
*/
public NM[] getOm23_RangeOfDecimalPrecision() {
NM[] retVal = this.getTypedField(3, new NM[0]);
return retVal;
}
/**
* Returns a count of the current number of repetitions of Range of Decimal Precision (OM2-3).
* This method does not create a repetition, so if no repetitions have currently been defined or accessed,
* it will return zero.
*/
public int getRangeOfDecimalPrecisionReps() {
return this.getReps(3);
}
/**
* Returns a specific repetition of
* OM2-3: "Range of Decimal Precision" - creates it if necessary
*
* @param rep The repetition index (0-indexed)
*/
public NM getRangeOfDecimalPrecision(int rep) {
NM retVal = this.getTypedField(3, rep);
return retVal;
}
/**
* Returns a specific repetition of
* OM2-3: "Range of Decimal Precision" - creates it if necessary
*
* @param rep The repetition index (0-indexed)
*/
public NM getOm23_RangeOfDecimalPrecision(int rep) {
NM retVal = this.getTypedField(3, rep);
return retVal;
}
/**
* Returns a count of the current number of repetitions of Range of Decimal Precision (OM2-3).
* This method does not create a repetition, so if no repetitions have currently been defined or accessed,
* it will return zero.
*/
public int getOm23_RangeOfDecimalPrecisionReps() {
return this.getReps(3);
}
/**
* Inserts a repetition of
* OM2-3: "Range of Decimal Precision" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public NM insertRangeOfDecimalPrecision(int rep) throws HL7Exception {
return (NM) super.insertRepetition(3, rep);
}
/**
* Inserts a repetition of
* OM2-3: "Range of Decimal Precision" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public NM insertOm23_RangeOfDecimalPrecision(int rep) throws HL7Exception {
return (NM) super.insertRepetition(3, rep);
}
/**
* Removes a repetition of
* OM2-3: "Range of Decimal Precision" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public NM removeRangeOfDecimalPrecision(int rep) throws HL7Exception {
return (NM) super.removeRepetition(3, rep);
}
/**
* Removes a repetition of
* OM2-3: "Range of Decimal Precision" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public NM removeOm23_RangeOfDecimalPrecision(int rep) throws HL7Exception {
return (NM) super.removeRepetition(3, rep);
}
/**
* Returns
* OM2-4: "Corresponding SI Units of Measure" - creates it if necessary
*/
public CWE getCorrespondingSIUnitsOfMeasure() {
CWE retVal = this.getTypedField(4, 0);
return retVal;
}
/**
* Returns
* OM2-4: "Corresponding SI Units of Measure" - creates it if necessary
*/
public CWE getOm24_CorrespondingSIUnitsOfMeasure() {
CWE retVal = this.getTypedField(4, 0);
return retVal;
}
/**
* Returns
* OM2-5: "SI Conversion Factor" - creates it if necessary
*/
public TX getSIConversionFactor() {
TX retVal = this.getTypedField(5, 0);
return retVal;
}
/**
* Returns
* OM2-5: "SI Conversion Factor" - creates it if necessary
*/
public TX getOm25_SIConversionFactor() {
TX retVal = this.getTypedField(5, 0);
return retVal;
}
/**
* Returns all repetitions of Reference (Normal) Range for Ordinal and Continuous Observations (OM2-6).
*/
public RFR[] getReferenceNormalRangeForOrdinalAndContinuousObservations() {
RFR[] retVal = this.getTypedField(6, new RFR[0]);
return retVal;
}
/**
* Returns all repetitions of Reference (Normal) Range for Ordinal and Continuous Observations (OM2-6).
*/
public RFR[] getOm26_ReferenceNormalRangeForOrdinalAndContinuousObservations() {
RFR[] retVal = this.getTypedField(6, new RFR[0]);
return retVal;
}
/**
* Returns a count of the current number of repetitions of Reference (Normal) Range for Ordinal and Continuous Observations (OM2-6).
* This method does not create a repetition, so if no repetitions have currently been defined or accessed,
* it will return zero.
*/
public int getReferenceNormalRangeForOrdinalAndContinuousObservationsReps() {
return this.getReps(6);
}
/**
* Returns a specific repetition of
* OM2-6: "Reference (Normal) Range for Ordinal and Continuous Observations" - creates it if necessary
*
* @param rep The repetition index (0-indexed)
*/
public RFR getReferenceNormalRangeForOrdinalAndContinuousObservations(int rep) {
RFR retVal = this.getTypedField(6, rep);
return retVal;
}
/**
* Returns a specific repetition of
* OM2-6: "Reference (Normal) Range for Ordinal and Continuous Observations" - creates it if necessary
*
* @param rep The repetition index (0-indexed)
*/
public RFR getOm26_ReferenceNormalRangeForOrdinalAndContinuousObservations(int rep) {
RFR retVal = this.getTypedField(6, rep);
return retVal;
}
/**
* Returns a count of the current number of repetitions of Reference (Normal) Range for Ordinal and Continuous Observations (OM2-6).
* This method does not create a repetition, so if no repetitions have currently been defined or accessed,
* it will return zero.
*/
public int getOm26_ReferenceNormalRangeForOrdinalAndContinuousObservationsReps() {
return this.getReps(6);
}
/**
* Inserts a repetition of
* OM2-6: "Reference (Normal) Range for Ordinal and Continuous Observations" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public RFR insertReferenceNormalRangeForOrdinalAndContinuousObservations(int rep) throws HL7Exception {
return (RFR) super.insertRepetition(6, rep);
}
/**
* Inserts a repetition of
* OM2-6: "Reference (Normal) Range for Ordinal and Continuous Observations" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public RFR insertOm26_ReferenceNormalRangeForOrdinalAndContinuousObservations(int rep) throws HL7Exception {
return (RFR) super.insertRepetition(6, rep);
}
/**
* Removes a repetition of
* OM2-6: "Reference (Normal) Range for Ordinal and Continuous Observations" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public RFR removeReferenceNormalRangeForOrdinalAndContinuousObservations(int rep) throws HL7Exception {
return (RFR) super.removeRepetition(6, rep);
}
/**
* Removes a repetition of
* OM2-6: "Reference (Normal) Range for Ordinal and Continuous Observations" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public RFR removeOm26_ReferenceNormalRangeForOrdinalAndContinuousObservations(int rep) throws HL7Exception {
return (RFR) super.removeRepetition(6, rep);
}
/**
* Returns all repetitions of Critical Range for Ordinal and Continuous Observations (OM2-7).
*/
public RFR[] getCriticalRangeForOrdinalAndContinuousObservations() {
RFR[] retVal = this.getTypedField(7, new RFR[0]);
return retVal;
}
/**
* Returns all repetitions of Critical Range for Ordinal and Continuous Observations (OM2-7).
*/
public RFR[] getOm27_CriticalRangeForOrdinalAndContinuousObservations() {
RFR[] retVal = this.getTypedField(7, new RFR[0]);
return retVal;
}
/**
* Returns a count of the current number of repetitions of Critical Range for Ordinal and Continuous Observations (OM2-7).
* This method does not create a repetition, so if no repetitions have currently been defined or accessed,
* it will return zero.
*/
public int getCriticalRangeForOrdinalAndContinuousObservationsReps() {
return this.getReps(7);
}
/**
* Returns a specific repetition of
* OM2-7: "Critical Range for Ordinal and Continuous Observations" - creates it if necessary
*
* @param rep The repetition index (0-indexed)
*/
public RFR getCriticalRangeForOrdinalAndContinuousObservations(int rep) {
RFR retVal = this.getTypedField(7, rep);
return retVal;
}
/**
* Returns a specific repetition of
* OM2-7: "Critical Range for Ordinal and Continuous Observations" - creates it if necessary
*
* @param rep The repetition index (0-indexed)
*/
public RFR getOm27_CriticalRangeForOrdinalAndContinuousObservations(int rep) {
RFR retVal = this.getTypedField(7, rep);
return retVal;
}
/**
* Returns a count of the current number of repetitions of Critical Range for Ordinal and Continuous Observations (OM2-7).
* This method does not create a repetition, so if no repetitions have currently been defined or accessed,
* it will return zero.
*/
public int getOm27_CriticalRangeForOrdinalAndContinuousObservationsReps() {
return this.getReps(7);
}
/**
* Inserts a repetition of
* OM2-7: "Critical Range for Ordinal and Continuous Observations" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public RFR insertCriticalRangeForOrdinalAndContinuousObservations(int rep) throws HL7Exception {
return (RFR) super.insertRepetition(7, rep);
}
/**
* Inserts a repetition of
* OM2-7: "Critical Range for Ordinal and Continuous Observations" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public RFR insertOm27_CriticalRangeForOrdinalAndContinuousObservations(int rep) throws HL7Exception {
return (RFR) super.insertRepetition(7, rep);
}
/**
* Removes a repetition of
* OM2-7: "Critical Range for Ordinal and Continuous Observations" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public RFR removeCriticalRangeForOrdinalAndContinuousObservations(int rep) throws HL7Exception {
return (RFR) super.removeRepetition(7, rep);
}
/**
* Removes a repetition of
* OM2-7: "Critical Range for Ordinal and Continuous Observations" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public RFR removeOm27_CriticalRangeForOrdinalAndContinuousObservations(int rep) throws HL7Exception {
return (RFR) super.removeRepetition(7, rep);
}
/**
* Returns
* OM2-8: "Absolute Range for Ordinal and Continuous Observations" - creates it if necessary
*/
public RFR getAbsoluteRangeForOrdinalAndContinuousObservations() {
RFR retVal = this.getTypedField(8, 0);
return retVal;
}
/**
* Returns
* OM2-8: "Absolute Range for Ordinal and Continuous Observations" - creates it if necessary
*/
public RFR getOm28_AbsoluteRangeForOrdinalAndContinuousObservations() {
RFR retVal = this.getTypedField(8, 0);
return retVal;
}
/**
* Returns all repetitions of Delta Check Criteria (OM2-9).
*/
public DLT[] getDeltaCheckCriteria() {
DLT[] retVal = this.getTypedField(9, new DLT[0]);
return retVal;
}
/**
* Returns all repetitions of Delta Check Criteria (OM2-9).
*/
public DLT[] getOm29_DeltaCheckCriteria() {
DLT[] retVal = this.getTypedField(9, new DLT[0]);
return retVal;
}
/**
* Returns a count of the current number of repetitions of Delta Check Criteria (OM2-9).
* This method does not create a repetition, so if no repetitions have currently been defined or accessed,
* it will return zero.
*/
public int getDeltaCheckCriteriaReps() {
return this.getReps(9);
}
/**
* Returns a specific repetition of
* OM2-9: "Delta Check Criteria" - creates it if necessary
*
* @param rep The repetition index (0-indexed)
*/
public DLT getDeltaCheckCriteria(int rep) {
DLT retVal = this.getTypedField(9, rep);
return retVal;
}
/**
* Returns a specific repetition of
* OM2-9: "Delta Check Criteria" - creates it if necessary
*
* @param rep The repetition index (0-indexed)
*/
public DLT getOm29_DeltaCheckCriteria(int rep) {
DLT retVal = this.getTypedField(9, rep);
return retVal;
}
/**
* Returns a count of the current number of repetitions of Delta Check Criteria (OM2-9).
* This method does not create a repetition, so if no repetitions have currently been defined or accessed,
* it will return zero.
*/
public int getOm29_DeltaCheckCriteriaReps() {
return this.getReps(9);
}
/**
* Inserts a repetition of
* OM2-9: "Delta Check Criteria" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public DLT insertDeltaCheckCriteria(int rep) throws HL7Exception {
return (DLT) super.insertRepetition(9, rep);
}
/**
* Inserts a repetition of
* OM2-9: "Delta Check Criteria" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public DLT insertOm29_DeltaCheckCriteria(int rep) throws HL7Exception {
return (DLT) super.insertRepetition(9, rep);
}
/**
* Removes a repetition of
* OM2-9: "Delta Check Criteria" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public DLT removeDeltaCheckCriteria(int rep) throws HL7Exception {
return (DLT) super.removeRepetition(9, rep);
}
/**
* Removes a repetition of
* OM2-9: "Delta Check Criteria" at a specific index
*
* @param rep The repetition index (0-indexed)
* @throws HL7Exception If the rep is invalid (below 0, or too high for the allowable repetitions)
*/
public DLT removeOm29_DeltaCheckCriteria(int rep) throws HL7Exception {
return (DLT) super.removeRepetition(9, rep);
}
/**
* Returns
* OM2-10: "Minimum Meaningful Increments" - creates it if necessary
*/
public NM getMinimumMeaningfulIncrements() {
NM retVal = this.getTypedField(10, 0);
return retVal;
}
/**
* Returns
* OM2-10: "Minimum Meaningful Increments" - creates it if necessary
*/
public NM getOm210_MinimumMeaningfulIncrements() {
NM retVal = this.getTypedField(10, 0);
return retVal;
}
/** {@inheritDoc} */
protected Type createNewTypeWithoutReflection(int field) {
switch (field) {
case 0: return new NM(getMessage());
case 1: return new CWE(getMessage());
case 2: return new NM(getMessage());
case 3: return new CWE(getMessage());
case 4: return new TX(getMessage());
case 5: return new RFR(getMessage());
case 6: return new RFR(getMessage());
case 7: return new RFR(getMessage());
case 8: return new DLT(getMessage());
case 9: return new NM(getMessage());
default: return null;
}
}
}