using System;
using NHapi.Base.Model;
using NHapi.Base.Log;
using NHapi.Base;
using NHapi.Base.Model.Primitive;
namespace NHapi.Model.V251.Datatype{
///<summary>
/// <p>The HL7 CNE (Coded with No Exceptions) data type. Consists of the following components: </p><ol>
/// <li>Identifier (ST)</li>
/// <li>Text (ST)</li>
/// <li>Name of Coding System (ID)</li>
/// <li>Alternate Identifier (ST)</li>
/// <li>Alternate Text (ST)</li>
/// <li>Name of Alternate Coding System (ID)</li>
/// <li>Coding System Version ID (ST)</li>
/// <li>Alternate Coding System Version ID (ST)</li>
/// <li>Original Text (ST)</li>
/// </ol>
///</summary>
[Serializable]
public class CNE : AbstractType, IComposite{
private IType[] data;
///<summary>
/// Creates a CNE.
/// <param name="message">The Message to which this Type belongs</param>
///</summary>
public CNE(IMessage message) : this(message, null){}
///<summary>
/// Creates a CNE.
/// <param name="message">The Message to which this Type belongs</param>
/// <param name="description">The description of this type</param>
///</summary>
public CNE(IMessage message, string description) : base(message, description){
data = new IType[9];
data[0] = new ST(message,"Identifier");
data[1] = new ST(message,"Text");
data[2] = new ID(message, 396,"Name of Coding System");
data[3] = new ST(message,"Alternate Identifier");
data[4] = new ST(message,"Alternate Text");
data[5] = new ID(message, 396,"Name of Alternate Coding System");
data[6] = new ST(message,"Coding System Version ID");
data[7] = new ST(message,"Alternate Coding System Version ID");
data[8] = new ST(message,"Original Text");
}
///<summary>
/// Returns an array containing the data elements.
///</summary>
public IType[] Components
{
get{
return this.data;
}
}
///<summary>
/// Returns an individual data component.
/// @throws DataTypeException if the given element number is out of range.
///<param name="index">The index item to get (zero based)</param>
///<returns>The data component (as a type) at the requested number (ordinal)</returns>
///</summary>
public IType this[int index] {
get{
try {
return this.data[index];
} catch (System.ArgumentOutOfRangeException) {
throw new DataTypeException("Element " + index + " doesn't exist in 9 element CNE composite");
}
}
}
///<summary>
/// Returns Identifier (component #0). This is a convenience method that saves you from
/// casting and handling an exception.
///</summary>
public ST Identifier {
get{
ST ret = null;
try {
ret = (ST)this[0];
} catch (DataTypeException e) {
HapiLogFactory.getHapiLog(this.GetType()).error("Unexpected problem accessing known data type component - this is a bug.", e);
throw new System.Exception("An unexpected error ocurred",e);
}
return ret;
}
}
///<summary>
/// Returns Text (component #1). This is a convenience method that saves you from
/// casting and handling an exception.
///</summary>
public ST Text {
get{
ST ret = null;
try {
ret = (ST)this[1];
} catch (DataTypeException e) {
HapiLogFactory.getHapiLog(this.GetType()).error("Unexpected problem accessing known data type component - this is a bug.", e);
throw new System.Exception("An unexpected error ocurred",e);
}
return ret;
}
}
///<summary>
/// Returns Name of Coding System (component #2). This is a convenience method that saves you from
/// casting and handling an exception.
///</summary>
public ID NameOfCodingSystem {
get{
ID ret = null;
try {
ret = (ID)this[2];
} catch (DataTypeException e) {
HapiLogFactory.getHapiLog(this.GetType()).error("Unexpected problem accessing known data type component - this is a bug.", e);
throw new System.Exception("An unexpected error ocurred",e);
}
return ret;
}
}
///<summary>
/// Returns Alternate Identifier (component #3). This is a convenience method that saves you from
/// casting and handling an exception.
///</summary>
public ST AlternateIdentifier {
get{
ST ret = null;
try {
ret = (ST)this[3];
} catch (DataTypeException e) {
HapiLogFactory.getHapiLog(this.GetType()).error("Unexpected problem accessing known data type component - this is a bug.", e);
throw new System.Exception("An unexpected error ocurred",e);
}
return ret;
}
}
///<summary>
/// Returns Alternate Text (component #4). This is a convenience method that saves you from
/// casting and handling an exception.
///</summary>
public ST AlternateText {
get{
ST ret = null;
try {
ret = (ST)this[4];
} catch (DataTypeException e) {
HapiLogFactory.getHapiLog(this.GetType()).error("Unexpected problem accessing known data type component - this is a bug.", e);
throw new System.Exception("An unexpected error ocurred",e);
}
return ret;
}
}
///<summary>
/// Returns Name of Alternate Coding System (component #5). This is a convenience method that saves you from
/// casting and handling an exception.
///</summary>
public ID NameOfAlternateCodingSystem {
get{
ID ret = null;
try {
ret = (ID)this[5];
} catch (DataTypeException e) {
HapiLogFactory.getHapiLog(this.GetType()).error("Unexpected problem accessing known data type component - this is a bug.", e);
throw new System.Exception("An unexpected error ocurred",e);
}
return ret;
}
}
///<summary>
/// Returns Coding System Version ID (component #6). This is a convenience method that saves you from
/// casting and handling an exception.
///</summary>
public ST CodingSystemVersionID {
get{
ST ret = null;
try {
ret = (ST)this[6];
} catch (DataTypeException e) {
HapiLogFactory.getHapiLog(this.GetType()).error("Unexpected problem accessing known data type component - this is a bug.", e);
throw new System.Exception("An unexpected error ocurred",e);
}
return ret;
}
}
///<summary>
/// Returns Alternate Coding System Version ID (component #7). This is a convenience method that saves you from
/// casting and handling an exception.
///</summary>
public ST AlternateCodingSystemVersionID {
get{
ST ret = null;
try {
ret = (ST)this[7];
} catch (DataTypeException e) {
HapiLogFactory.getHapiLog(this.GetType()).error("Unexpected problem accessing known data type component - this is a bug.", e);
throw new System.Exception("An unexpected error ocurred",e);
}
return ret;
}
}
///<summary>
/// Returns Original Text (component #8). This is a convenience method that saves you from
/// casting and handling an exception.
///</summary>
public ST OriginalText {
get{
ST ret = null;
try {
ret = (ST)this[8];
} catch (DataTypeException e) {
HapiLogFactory.getHapiLog(this.GetType()).error("Unexpected problem accessing known data type component - this is a bug.", e);
throw new System.Exception("An unexpected error ocurred",e);
}
return ret;
}
}
}}
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