package iapp.classifiers;
public class FeeWithdrawalPolicyClassifier
implements java.io.Serializable, iapp.services.Classifier {
public static final FeeWithdrawalPolicyClassifier DEDUCTION = new FeeWithdrawalPolicyClassifier("DD");
public static final FeeWithdrawalPolicyClassifier WITHDRAWAL = new FeeWithdrawalPolicyClassifier("WD");
public static final FeeWithdrawalPolicyClassifier DEDUCTION_CONDITIONAL = new FeeWithdrawalPolicyClassifier("DC");
public static final FeeWithdrawalPolicyClassifier DEDUCTION = new FeeWithdrawalPolicyClassifier("DD");
public static final FeeWithdrawalPolicyClassifier WITHDRAWAL = new FeeWithdrawalPolicyClassifier("WD");
public static final FeeWithdrawalPolicyClassifier DEDUCTION_CONDITIONAL = new FeeWithdrawalPolicyClassifier("DC");
public static final FeeWithdrawalPolicyClassifier DEDUCTION = new FeeWithdrawalPolicyClassifier("DD");
public static final FeeWithdrawalPolicyClassifier WITHDRAWAL = new FeeWithdrawalPolicyClassifier("WD");
public static final FeeWithdrawalPolicyClassifier DEDUCTION_CONDITIONAL = new FeeWithdrawalPolicyClassifier("DC");
private static final java.util.Map values = new java.util.TreeMap();
private static java.util.List literals = new java.util.ArrayList(3);
private static java.util.List names = new java.util.ArrayList(3);
/**
* Initializes the values.
*/
static {
values.put(DEDUCTION.value, DEDUCTION);
literals.add(DEDUCTION.value);
DEDUCTION.setName("DEDUCTION");
names.add("DEDUCTION");
values.put(WITHDRAWAL.value, WITHDRAWAL);
literals.add(WITHDRAWAL.value);
WITHDRAWAL.setName("WITHDRAWAL");
names.add("WITHDRAWAL");
values.put(DEDUCTION_CONDITIONAL.value, DEDUCTION_CONDITIONAL);
literals.add(DEDUCTION_CONDITIONAL.value);
DEDUCTION_CONDITIONAL.setName("DEDUCTION_CONDITIONAL");
names.add("DEDUCTION_CONDITIONAL");
values.put(DEDUCTION.value, DEDUCTION);
literals.add(DEDUCTION.value);
DEDUCTION.setName("DEDUCTION");
names.add("DEDUCTION");
values.put(WITHDRAWAL.value, WITHDRAWAL);
literals.add(WITHDRAWAL.value);
WITHDRAWAL.setName("WITHDRAWAL");
names.add("WITHDRAWAL");
values.put(DEDUCTION_CONDITIONAL.value, DEDUCTION_CONDITIONAL);
literals.add(DEDUCTION_CONDITIONAL.value);
DEDUCTION_CONDITIONAL.setName("DEDUCTION_CONDITIONAL");
names.add("DEDUCTION_CONDITIONAL");
values.put(DEDUCTION.value, DEDUCTION);
literals.add(DEDUCTION.value);
DEDUCTION.setName("DEDUCTION");
names.add("DEDUCTION");
values.put(WITHDRAWAL.value, WITHDRAWAL);
literals.add(WITHDRAWAL.value);
WITHDRAWAL.setName("WITHDRAWAL");
names.add("WITHDRAWAL");
values.put(DEDUCTION_CONDITIONAL.value, DEDUCTION_CONDITIONAL);
literals.add(DEDUCTION_CONDITIONAL.value);
DEDUCTION_CONDITIONAL.setName("DEDUCTION_CONDITIONAL");
names.add("DEDUCTION_CONDITIONAL");
literals = java.util.Collections.unmodifiableList(literals);
names = java.util.Collections.unmodifiableList(names);
}
private java.lang.String value;
private java.lang.String name;
/**
* The default constructor allowing super classes to access it.
*/
protected FeeWithdrawalPolicyClassifier() {}
private FeeWithdrawalPolicyClassifier(java.lang.String value) {
this.value = value;
}
public String toString() {
return java.lang.String.valueOf(value);
}
/**
* Creates an instance of FeeWithdrawalPolicyClassifier from <code>value</code>.
*
* @param value the value to create the FeeWithdrawalPolicyClassifier from.
*/
public static FeeWithdrawalPolicyClassifier fromString(java.lang.String value) {
if(value == null) return null;
final FeeWithdrawalPolicyClassifier typeValue = (FeeWithdrawalPolicyClassifier) values.get(value);
if (typeValue == null) {
throw new IllegalArgumentException("invalid value '" + value + "', possible values are: " + literals);
}
return typeValue;
}
/**
* Checks correct value for the classifier
*/
public boolean isFeeWithdrawalPolicyClassifier(java.lang.String value){
return (value == null || values.get(value) != null);
}
/**
* Get/set for value
*/
public java.lang.String getValue() {
return this.value;
}
public java.lang.String getName() {
return this.name;
}
/**
* Get/set for name
*/
private void setName(java.lang.String name) {
this.name = name;
}
/**
* @see java.lang.Comparable#compareTo(java.lang.Object)
*/
public int compareTo(Object that)
{
return (this == that) ? 0 : this.getValue().compareTo(((FeeWithdrawalPolicyClassifier)that).getValue());
}
public static java.util.Map getValues() {
return values;
}
/**
* Returns an unmodifiable list containing the literals that are known by this enumeration.
*
* @return A List containing the actual literals defined by this enumeration, this list
* can not be modified.
*/
public static java.util.List literals() {
return literals;
}
/**
* Returns an unmodifiable list containing the names of the literals that are known
* by this enumeration.
*
* @return A List containing the actual names of the literals defined by this
* enumeration, this list can not be modified.
*/
public static java.util.List names() {
return names;
}
/**
* @see java.lang.Object#equals(java.lang.Object)
*/
public boolean equals(Object object) {
return (this == object)
|| (object instanceof FeeWithdrawalPolicyClassifier && ((FeeWithdrawalPolicyClassifier)object).getValue().equals(
this.getValue()));
}
/**
* @see java.lang.Object#hashCode()
*/
public int hashCode() {
return this.getValue().hashCode();
}
/**
* This method allows the deserialization of an instance of this enumeration type to return the actual instance
* that will be the singleton for the JVM in which the current thread is running.
* <p/>
* Doing this will allow users to safely use the equality operator <code>==</code> for enumerations because
* a regular deserialized object is always a newly constructed instance and will therefore never be
* an existing reference; it is this <code>readResolve()</code> method which will intercept the deserialization
* process in order to return the proper singleton reference.
*/
private java.lang.Object readResolve() throws java.io.ObjectStreamException {
return FeeWithdrawalPolicyClassifier.fromString(this.value);
}
}