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/* ----------------------------------------------------------------------------
* This file was automatically generated by SWIG (http://www.swig.org).
* Version 3.0.12
*
* Do not make changes to this file unless you know what you are doing--modify
* the SWIG interface file instead.
* ----------------------------------------------------------------------------- */
package org.quantlib;
public class LogNormalSimulatedAnnealing extends OptimizationMethod {
private transient long swigCPtr;
protected LogNormalSimulatedAnnealing(long cPtr, boolean cMemoryOwn) {
super(QuantLibJNI.LogNormalSimulatedAnnealing_SWIGUpcast(cPtr), cMemoryOwn);
swigCPtr = cPtr;
}
protected static long getCPtr(LogNormalSimulatedAnnealing obj) {
return (obj == null) ? 0 : obj.swigCPtr;
}
protected void finalize() {
delete();
}
public synchronized void delete() {
if (swigCPtr != 0) {
if (swigCMemOwn) {
swigCMemOwn = false;
QuantLibJNI.delete_LogNormalSimulatedAnnealing(swigCPtr);
}
swigCPtr = 0;
}
super.delete();
}
public LogNormalSimulatedAnnealing(SamplerLogNormal sampler, ProbabilityBoltzmannDownhill probability, TemperatureExponential temperature, ReannealingTrivial reannealing, double startTemperature, double endTemperature, long reAnnealSteps, LogNormalSimulatedAnnealing.ResetScheme resetScheme, long resetSteps) {
this(QuantLibJNI.new_LogNormalSimulatedAnnealing__SWIG_0(SamplerLogNormal.getCPtr(sampler), sampler, ProbabilityBoltzmannDownhill.getCPtr(probability), probability, TemperatureExponential.getCPtr(temperature), temperature, ReannealingTrivial.getCPtr(reannealing), reannealing, startTemperature, endTemperature, reAnnealSteps, resetScheme.swigValue(), resetSteps), true);
}
public LogNormalSimulatedAnnealing(SamplerLogNormal sampler, ProbabilityBoltzmannDownhill probability, TemperatureExponential temperature, ReannealingTrivial reannealing, double startTemperature, double endTemperature, long reAnnealSteps, LogNormalSimulatedAnnealing.ResetScheme resetScheme) {
this(QuantLibJNI.new_LogNormalSimulatedAnnealing__SWIG_1(SamplerLogNormal.getCPtr(sampler), sampler, ProbabilityBoltzmannDownhill.getCPtr(probability), probability, TemperatureExponential.getCPtr(temperature), temperature, ReannealingTrivial.getCPtr(reannealing), reannealing, startTemperature, endTemperature, reAnnealSteps, resetScheme.swigValue()), true);
}
public LogNormalSimulatedAnnealing(SamplerLogNormal sampler, ProbabilityBoltzmannDownhill probability, TemperatureExponential temperature, ReannealingTrivial reannealing, double startTemperature, double endTemperature, long reAnnealSteps) {
this(QuantLibJNI.new_LogNormalSimulatedAnnealing__SWIG_2(SamplerLogNormal.getCPtr(sampler), sampler, ProbabilityBoltzmannDownhill.getCPtr(probability), probability, TemperatureExponential.getCPtr(temperature), temperature, ReannealingTrivial.getCPtr(reannealing), reannealing, startTemperature, endTemperature, reAnnealSteps), true);
}
public LogNormalSimulatedAnnealing(SamplerLogNormal sampler, ProbabilityBoltzmannDownhill probability, TemperatureExponential temperature, ReannealingTrivial reannealing, double startTemperature, double endTemperature) {
this(QuantLibJNI.new_LogNormalSimulatedAnnealing__SWIG_3(SamplerLogNormal.getCPtr(sampler), sampler, ProbabilityBoltzmannDownhill.getCPtr(probability), probability, TemperatureExponential.getCPtr(temperature), temperature, ReannealingTrivial.getCPtr(reannealing), reannealing, startTemperature, endTemperature), true);
}
public LogNormalSimulatedAnnealing(SamplerLogNormal sampler, ProbabilityBoltzmannDownhill probability, TemperatureExponential temperature, ReannealingTrivial reannealing, double startTemperature) {
this(QuantLibJNI.new_LogNormalSimulatedAnnealing__SWIG_4(SamplerLogNormal.getCPtr(sampler), sampler, ProbabilityBoltzmannDownhill.getCPtr(probability), probability, TemperatureExponential.getCPtr(temperature), temperature, ReannealingTrivial.getCPtr(reannealing), reannealing, startTemperature), true);
}
public LogNormalSimulatedAnnealing(SamplerLogNormal sampler, ProbabilityBoltzmannDownhill probability, TemperatureExponential temperature, ReannealingTrivial reannealing) {
this(QuantLibJNI.new_LogNormalSimulatedAnnealing__SWIG_5(SamplerLogNormal.getCPtr(sampler), sampler, ProbabilityBoltzmannDownhill.getCPtr(probability), probability, TemperatureExponential.getCPtr(temperature), temperature, ReannealingTrivial.getCPtr(reannealing), reannealing), true);
}
public LogNormalSimulatedAnnealing(SamplerLogNormal sampler, ProbabilityBoltzmannDownhill probability, TemperatureExponential temperature) {
this(QuantLibJNI.new_LogNormalSimulatedAnnealing__SWIG_6(SamplerLogNormal.getCPtr(sampler), sampler, ProbabilityBoltzmannDownhill.getCPtr(probability), probability, TemperatureExponential.getCPtr(temperature), temperature), true);
}
public final static class ResetScheme {
public final static LogNormalSimulatedAnnealing.ResetScheme NoResetScheme = new LogNormalSimulatedAnnealing.ResetScheme("NoResetScheme");
public final static LogNormalSimulatedAnnealing.ResetScheme ResetToBestPoint = new LogNormalSimulatedAnnealing.ResetScheme("ResetToBestPoint");
public final static LogNormalSimulatedAnnealing.ResetScheme ResetToOrigin = new LogNormalSimulatedAnnealing.ResetScheme("ResetToOrigin");
public final int swigValue() {
return swigValue;
}
public String toString() {
return swigName;
}
public static ResetScheme swigToEnum(int swigValue) {
if (swigValue < swigValues.length && swigValue >= 0 && swigValues[swigValue].swigValue == swigValue)
return swigValues[swigValue];
for (int i = 0; i < swigValues.length; i++)
if (swigValues[i].swigValue == swigValue)
return swigValues[i];
throw new IllegalArgumentException("No enum " + ResetScheme.class + " with value " + swigValue);
}
private ResetScheme(String swigName) {
this.swigName = swigName;
this.swigValue = swigNext++;
}
private ResetScheme(String swigName, int swigValue) {
this.swigName = swigName;
this.swigValue = swigValue;
swigNext = swigValue+1;
}
private ResetScheme(String swigName, ResetScheme swigEnum) {
this.swigName = swigName;
this.swigValue = swigEnum.swigValue;
swigNext = this.swigValue+1;
}
private static ResetScheme[] swigValues = { NoResetScheme, ResetToBestPoint, ResetToOrigin };
private static int swigNext = 0;
private final int swigValue;
private final String swigName;
}
}
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