/* ---------------------------------------------------------------------------- * 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 BlackVolTermStructureHandle { private transient long swigCPtr; protected transient boolean swigCMemOwn; protected BlackVolTermStructureHandle(long cPtr, boolean cMemoryOwn) { swigCMemOwn = cMemoryOwn; swigCPtr = cPtr; } protected static long getCPtr(BlackVolTermStructureHandle obj) { return (obj == null) ? 0 : obj.swigCPtr; } protected void finalize() { delete(); } public synchronized void delete() { if (swigCPtr != 0) { if (swigCMemOwn) { swigCMemOwn = false; QuantLibJNI.delete_BlackVolTermStructureHandle(swigCPtr); } swigCPtr = 0; } } public BlackVolTermStructureHandle(BlackVolTermStructure arg0) { this(QuantLibJNI.new_BlackVolTermStructureHandle__SWIG_0(BlackVolTermStructure.getCPtr(arg0), arg0), true); } public BlackVolTermStructureHandle() { this(QuantLibJNI.new_BlackVolTermStructureHandle__SWIG_1(), true); } public BlackVolTermStructure __deref__() { return new BlackVolTermStructure(QuantLibJNI.BlackVolTermStructureHandle___deref__(swigCPtr, this), true); } public boolean empty() { return QuantLibJNI.BlackVolTermStructureHandle_empty(swigCPtr, this); } public Observable asObservable() { return new Observable(QuantLibJNI.BlackVolTermStructureHandle_asObservable(swigCPtr, this), true); } public Date referenceDate() { return new Date(QuantLibJNI.BlackVolTermStructureHandle_referenceDate(swigCPtr, this), true); } public DayCounter dayCounter() { return new DayCounter(QuantLibJNI.BlackVolTermStructureHandle_dayCounter(swigCPtr, this), true); } public Calendar calendar() { return new Calendar(QuantLibJNI.BlackVolTermStructureHandle_calendar(swigCPtr, this), true); } public Date maxDate() { return new Date(QuantLibJNI.BlackVolTermStructureHandle_maxDate(swigCPtr, this), true); } public double maxTime() { return QuantLibJNI.BlackVolTermStructureHandle_maxTime(swigCPtr, this); } public double minStrike() { return QuantLibJNI.BlackVolTermStructureHandle_minStrike(swigCPtr, this); } public double maxStrike() { return QuantLibJNI.BlackVolTermStructureHandle_maxStrike(swigCPtr, this); } public double blackVol(Date arg0, double strike, boolean extrapolate) { return QuantLibJNI.BlackVolTermStructureHandle_blackVol__SWIG_0(swigCPtr, this, Date.getCPtr(arg0), arg0, strike, extrapolate); } public double blackVol(Date arg0, double strike) { return QuantLibJNI.BlackVolTermStructureHandle_blackVol__SWIG_1(swigCPtr, this, Date.getCPtr(arg0), arg0, strike); } public double blackVol(double arg0, double strike, boolean extrapolate) { return QuantLibJNI.BlackVolTermStructureHandle_blackVol__SWIG_2(swigCPtr, this, arg0, strike, extrapolate); } public double blackVol(double arg0, double strike) { return QuantLibJNI.BlackVolTermStructureHandle_blackVol__SWIG_3(swigCPtr, this, arg0, strike); } public double blackVariance(Date arg0, double strike, boolean extrapolate) { return QuantLibJNI.BlackVolTermStructureHandle_blackVariance__SWIG_0(swigCPtr, this, Date.getCPtr(arg0), arg0, strike, extrapolate); } public double blackVariance(Date arg0, double strike) { return QuantLibJNI.BlackVolTermStructureHandle_blackVariance__SWIG_1(swigCPtr, this, Date.getCPtr(arg0), arg0, strike); } public double blackVariance(double arg0, double strike, boolean extrapolate) { return QuantLibJNI.BlackVolTermStructureHandle_blackVariance__SWIG_2(swigCPtr, this, arg0, strike, extrapolate); } public double blackVariance(double arg0, double strike) { return QuantLibJNI.BlackVolTermStructureHandle_blackVariance__SWIG_3(swigCPtr, this, arg0, strike); } public double blackForwardVol(Date arg0, Date arg1, double strike, boolean extrapolate) { return QuantLibJNI.BlackVolTermStructureHandle_blackForwardVol__SWIG_0(swigCPtr, this, Date.getCPtr(arg0), arg0, Date.getCPtr(arg1), arg1, strike, extrapolate); } public double blackForwardVol(Date arg0, Date arg1, double strike) { return QuantLibJNI.BlackVolTermStructureHandle_blackForwardVol__SWIG_1(swigCPtr, this, Date.getCPtr(arg0), arg0, Date.getCPtr(arg1), arg1, strike); } public double blackForwardVol(double arg0, double arg1, double strike, boolean extrapolate) { return QuantLibJNI.BlackVolTermStructureHandle_blackForwardVol__SWIG_2(swigCPtr, this, arg0, arg1, strike, extrapolate); } public double blackForwardVol(double arg0, double arg1, double strike) { return QuantLibJNI.BlackVolTermStructureHandle_blackForwardVol__SWIG_3(swigCPtr, this, arg0, arg1, strike); } public double blackForwardVariance(Date arg0, Date arg1, double strike, boolean extrapolate) { return QuantLibJNI.BlackVolTermStructureHandle_blackForwardVariance__SWIG_0(swigCPtr, this, Date.getCPtr(arg0), arg0, Date.getCPtr(arg1), arg1, strike, extrapolate); } public double blackForwardVariance(Date arg0, Date arg1, double strike) { return QuantLibJNI.BlackVolTermStructureHandle_blackForwardVariance__SWIG_1(swigCPtr, this, Date.getCPtr(arg0), arg0, Date.getCPtr(arg1), arg1, strike); } public double blackForwardVariance(double arg0, double arg1, double strike, boolean extrapolate) { return QuantLibJNI.BlackVolTermStructureHandle_blackForwardVariance__SWIG_2(swigCPtr, this, arg0, arg1, strike, extrapolate); } public double blackForwardVariance(double arg0, double arg1, double strike) { return QuantLibJNI.BlackVolTermStructureHandle_blackForwardVariance__SWIG_3(swigCPtr, this, arg0, arg1, strike); } public void enableExtrapolation() { QuantLibJNI.BlackVolTermStructureHandle_enableExtrapolation(swigCPtr, this); } public void disableExtrapolation() { QuantLibJNI.BlackVolTermStructureHandle_disableExtrapolation(swigCPtr, this); } public boolean allowsExtrapolation() { return QuantLibJNI.BlackVolTermStructureHandle_allowsExtrapolation(swigCPtr, this); } }