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finmath lib is a Mathematical Finance Library in Java.
It provides algorithms and methodologies related to mathematical finance.
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package net.finmath.singleswaprate.annuitymapping;
import net.finmath.marketdata.model.AnalyticModel;
import net.finmath.marketdata.model.curves.ForwardCurve;
import net.finmath.marketdata.model.curves.ForwardCurveFromDiscountCurve;
import net.finmath.marketdata.products.Swap;
import net.finmath.marketdata.products.SwapAnnuity;
import net.finmath.time.Schedule;
/**
* Provides a light-weight linear annuity mapping.
*
* @author Christian Fries
* @author Roland Bachl
*
*/
public class SimplifiedLinearAnnuityMapping implements AnnuityMapping {
private final double slope;
private final double intercept;
private final double initialAnnuity;
public SimplifiedLinearAnnuityMapping(final Schedule schedule, final double initialAnnuity,
final double initialSwapRate, final double discountFactor) {
super();
double intercept = 0.0;
for(int index = 0; index < schedule.getNumberOfPeriods(); index++) {
intercept += schedule.getPeriodLength(index);
}
intercept = 1.0/intercept;
double slope = discountFactor /initialAnnuity -intercept;
slope /=initialSwapRate;
this.intercept =intercept;
this.slope =slope;
this.initialAnnuity = initialAnnuity;
}
/**
* Construct the annuity mapping.
*
* @param fixSchedule The schedule of the fix leg of the swap.
* @param floatSchedule The schedule of the float leg of the swap.
* @param model The model containing the curves.
* @param discountCurveName The discount curve.
*/
public SimplifiedLinearAnnuityMapping(final Schedule fixSchedule, final Schedule floatSchedule, final AnalyticModel model, final String discountCurveName) {
super();
double intercept = 0.0;
for(int index = 0; index < fixSchedule.getNumberOfPeriods(); index++) {
intercept += fixSchedule.getPeriodLength(index);
}
intercept = 1.0/intercept;
final ForwardCurve forwardCurve = new ForwardCurveFromDiscountCurve(discountCurveName,
model.getDiscountCurve(discountCurveName).getReferenceDate() == null ? fixSchedule.getReferenceDate() :
model.getDiscountCurve(discountCurveName).getReferenceDate(), "6M");
final double initialAnnuity = SwapAnnuity.getSwapAnnuity(fixSchedule.getFixing(0), fixSchedule, model.getDiscountCurve(discountCurveName), model);
// double initialSwapRate = Swap.getForwardSwapRate(schedule, schedule, model.getForwardCurve(forwardCurveName), model);
final double initialSwapRate = Swap.getForwardSwapRate(fixSchedule, floatSchedule, forwardCurve, model);
double slope = 1 /initialAnnuity -intercept; //model.getDiscountCurve(discountCurveName).getValue(schedule.getPeriodStart(0)) /model.getDiscountCurve(discountCurveName).getValue(schedule.getFixing(0))
slope /=initialSwapRate;
this.intercept =intercept;
this.slope =slope;
this.initialAnnuity = initialAnnuity;
}
@Override
public double getValue(final double swapRate) {
return (swapRate *slope +intercept) *initialAnnuity;
}
@Override
public double getFirstDerivative(final double swapRate) {
return slope *initialAnnuity;
}
@Override
public double getSecondDerivative(final double swapRate) {
return 0;
}
}