/**
* Copyright (C) 2013 - present by OpenGamma Inc. and the OpenGamma group of companies
*
* Please see distribution for license.
*/
package com.opengamma.analytics.financial.interestrate.payments.provider;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import com.opengamma.analytics.financial.interestrate.payments.derivative.CapFloorIbor;
import com.opengamma.analytics.financial.model.option.pricing.analytic.formula.BlackFunctionData;
import com.opengamma.analytics.financial.model.option.pricing.analytic.formula.BlackPriceFunction;
import com.opengamma.analytics.financial.model.option.pricing.analytic.formula.EuropeanVanillaOption;
import com.opengamma.analytics.financial.provider.description.interestrate.BlackSmileCapProviderInterface;
import com.opengamma.analytics.financial.provider.description.interestrate.MulticurveProviderInterface;
import com.opengamma.analytics.financial.provider.sensitivity.multicurve.MulticurveSensitivity;
import com.opengamma.analytics.financial.provider.sensitivity.multicurve.MultipleCurrencyMulticurveSensitivity;
import com.opengamma.analytics.financial.provider.sensitivity.multicurve.SimplyCompoundedForwardSensitivity;
import com.opengamma.analytics.math.function.Function1D;
import com.opengamma.util.ArgumentChecker;
import com.opengamma.util.money.MultipleCurrencyAmount;
import com.opengamma.util.tuple.DoublesPair;
/**
* Class used to compute the price and sensitivity of a Ibor cap/floor with Black model.
* No convexity adjustment is done for payment at non-standard dates.
*/
public final class CapFloorIborBlackSmileMethod {
/**
* The method unique instance.
*/
private static final CapFloorIborBlackSmileMethod INSTANCE = new CapFloorIborBlackSmileMethod();
/**
* Private constructor.
*/
private CapFloorIborBlackSmileMethod() {
}
/**
* Return the unique instance of the class.
* @return The instance.
*/
public static CapFloorIborBlackSmileMethod getInstance() {
return INSTANCE;
}
/**
* The Black function used in the pricing.
*/
private static final BlackPriceFunction BLACK_FUNCTION = new BlackPriceFunction();
/**
* Computes the present value.
* @param cap The caplet/floorlet.
* @param black The Black implied volatility and multi-curve provider.
* @return The present value.
*/
public MultipleCurrencyAmount presentValue(final CapFloorIbor cap, final BlackSmileCapProviderInterface black) {
ArgumentChecker.notNull(cap, "The cap/floor shoud not be null");
ArgumentChecker.notNull(black, "Black provider");
final EuropeanVanillaOption option = new EuropeanVanillaOption(cap.getStrike(), cap.getFixingTime(), cap.isCap());
final double forward = black.getMulticurveProvider().getSimplyCompoundForwardRate(cap.getIndex(), cap.getFixingPeriodStartTime(), cap.getFixingPeriodEndTime(), cap.getFixingAccrualFactor());
final double df = black.getMulticurveProvider().getDiscountFactor(cap.getCurrency(), cap.getPaymentTime());
final double volatility = black.getBlackParameters().getVolatility(cap.getFixingTime(), cap.getStrike());
final BlackFunctionData dataBlack = new BlackFunctionData(forward, df, volatility);
final Function1D<BlackFunctionData, Double> func = BLACK_FUNCTION.getPriceFunction(option);
final double price = func.evaluate(dataBlack) * cap.getNotional() * cap.getPaymentYearFraction();
return MultipleCurrencyAmount.of(cap.getCurrency(), price);
}
/**
* Computes the present value rate sensitivity to rates of a cap/floor in the Black model.
* No smile impact is taken into account; equivalent to a sticky strike smile description.
* @param cap The caplet/floorlet.
* @param black The Black implied volatility and multi-curve provider.
* @return The present value curve sensitivity.
*/
public MultipleCurrencyMulticurveSensitivity presentValueCurveSensitivity(final CapFloorIbor cap, final BlackSmileCapProviderInterface black) {
ArgumentChecker.notNull(cap, "The cap/floor shoud not be null");
ArgumentChecker.notNull(black, "Black provider");
final MulticurveProviderInterface multicurve = black.getMulticurveProvider();
final EuropeanVanillaOption option = new EuropeanVanillaOption(cap.getStrike(), cap.getFixingTime(), cap.isCap());
final double forward = multicurve.getSimplyCompoundForwardRate(cap.getIndex(), cap.getFixingPeriodStartTime(), cap.getFixingPeriodEndTime(), cap.getFixingAccrualFactor());
final double df = multicurve.getDiscountFactor(cap.getCurrency(), cap.getPaymentTime());
final MulticurveSensitivity forwardDr = MulticurveSensitivity.ofForward(multicurve.getName(cap.getIndex()),
new SimplyCompoundedForwardSensitivity(cap.getFixingPeriodStartTime(), cap.getFixingPeriodEndTime(), cap.getFixingAccrualFactor(), 1.0));
final double dfDr = -cap.getPaymentTime() * df;
final double volatility = black.getBlackParameters().getVolatility(cap.getFixingTime(), cap.getStrike());
final BlackFunctionData dataBlack = new BlackFunctionData(forward, 1.0, volatility);
final double[] bsAdjoint = BLACK_FUNCTION.getPriceAdjoint(option, dataBlack);
final List<DoublesPair> list = new ArrayList<>();
list.add(DoublesPair.of(cap.getPaymentTime(), dfDr));
final Map<String, List<DoublesPair>> resultMap = new HashMap<>();
resultMap.put(multicurve.getName(cap.getCurrency()), list);
MulticurveSensitivity result = MulticurveSensitivity.ofYieldDiscounting(resultMap);
result = result.multipliedBy(bsAdjoint[0]);
result = result.plus(forwardDr.multipliedBy(df * bsAdjoint[1]));
result = result.multipliedBy(cap.getNotional() * cap.getPaymentYearFraction());
return MultipleCurrencyMulticurveSensitivity.of(cap.getCurrency(), result);
}
}