/* ---------------------------------------------------------------------------- * This file was automatically generated by SWIG (http://www.swig.org). * Version 4.0.2 * * 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 BlackCalibrationHelper extends CalibrationHelper { private transient long swigCPtr; private transient boolean swigCMemOwnDerived; protected BlackCalibrationHelper(long cPtr, boolean cMemoryOwn) { super(QuantLibJNI.BlackCalibrationHelper_SWIGSmartPtrUpcast(cPtr), true); swigCMemOwnDerived = cMemoryOwn; swigCPtr = cPtr; } protected static long getCPtr(BlackCalibrationHelper obj) { return (obj == null) ? 0 : obj.swigCPtr; } protected void swigSetCMemOwn(boolean own) { swigCMemOwnDerived = own; super.swigSetCMemOwn(own); } @SuppressWarnings("deprecation") protected void finalize() { delete(); } public synchronized void delete() { if (swigCPtr != 0) { if (swigCMemOwnDerived) { swigCMemOwnDerived = false; QuantLibJNI.delete_BlackCalibrationHelper(swigCPtr); } swigCPtr = 0; } super.delete(); } public void setPricingEngine(PricingEngine engine) { QuantLibJNI.BlackCalibrationHelper_setPricingEngine(swigCPtr, this, PricingEngine.getCPtr(engine), engine); } public double marketValue() { return QuantLibJNI.BlackCalibrationHelper_marketValue(swigCPtr, this); } public double modelValue() { return QuantLibJNI.BlackCalibrationHelper_modelValue(swigCPtr, this); } public double impliedVolatility(double targetValue, double accuracy, long maxEvaluations, double minVol, double maxVol) { return QuantLibJNI.BlackCalibrationHelper_impliedVolatility(swigCPtr, this, targetValue, accuracy, maxEvaluations, minVol, maxVol); } public double blackPrice(double volatility) { return QuantLibJNI.BlackCalibrationHelper_blackPrice(swigCPtr, this, volatility); } public QuoteHandle volatility() { return new QuoteHandle(QuantLibJNI.BlackCalibrationHelper_volatility(swigCPtr, this), true); } public VolatilityType volatilityType() { return VolatilityType.swigToEnum(QuantLibJNI.BlackCalibrationHelper_volatilityType(swigCPtr, this)); } public double calibrationError() { return QuantLibJNI.BlackCalibrationHelper_calibrationError(swigCPtr, this); } public final static class CalibrationErrorType { public final static BlackCalibrationHelper.CalibrationErrorType RelativePriceError = new BlackCalibrationHelper.CalibrationErrorType("RelativePriceError"); public final static BlackCalibrationHelper.CalibrationErrorType PriceError = new BlackCalibrationHelper.CalibrationErrorType("PriceError"); public final static BlackCalibrationHelper.CalibrationErrorType ImpliedVolError = new BlackCalibrationHelper.CalibrationErrorType("ImpliedVolError"); public final int swigValue() { return swigValue; } public String toString() { return swigName; } public static CalibrationErrorType 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 " + CalibrationErrorType.class + " with value " + swigValue); } private CalibrationErrorType(String swigName) { this.swigName = swigName; this.swigValue = swigNext++; } private CalibrationErrorType(String swigName, int swigValue) { this.swigName = swigName; this.swigValue = swigValue; swigNext = swigValue+1; } private CalibrationErrorType(String swigName, CalibrationErrorType swigEnum) { this.swigName = swigName; this.swigValue = swigEnum.swigValue; swigNext = this.swigValue+1; } private static CalibrationErrorType[] swigValues = { RelativePriceError, PriceError, ImpliedVolError }; private static int swigNext = 0; private final int swigValue; private final String swigName; } }