Java tutorial
/** * 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.derivative; import java.util.Arrays; import org.apache.commons.lang.ObjectUtils; import com.opengamma.analytics.financial.instrument.index.IborIndex; import com.opengamma.analytics.financial.interestrate.InstrumentDerivativeVisitor; import com.opengamma.util.ArgumentChecker; import com.opengamma.util.money.Currency; /** * Class describing a Ibor-like coupon with compounding and spread. There are three ISDA versions of compounding with spread. * The one referred in this class is the "compounding" (not "Flat Compounding" and not "Compounding treating spread as simple interest"). * The Ibor fixing are compounded over several sub-periods. * The amount paid is equal to * $$ * \begin{equation*} * \left(\prod_{i=1}^n (1+\delta_i r_i + s) \right)-1 * \end{equation*} * $$ * where the $\delta_i$ are the accrual factors of the sub periods, the $r_i$ the fixing for the same periods and $s$ the common spread. * The fixing have their own start dates, end dates and accrual factors. In general they are close to the accrual * dates used to compute the coupon accrual factors. * <p> Reference: Mengle, D. (2009). Alternative compounding methods for over-the-counter derivative transactions. ISDA. */ public class CouponIborCompoundingSpread extends Coupon { /** * The Ibor-like index on which the coupon fixes. The index currency should be the same as the coupon currency. * All the coupon sub-periods fix on the same index. */ private final IborIndex _index; /** * The accrual factors (or year fraction) associated to the sub-periods not yet fixed. */ private final double[] _paymentAccrualFactors; /** * The coupon fixing times. */ private final double[] _fixingTimes; /** * The start times of the fixing periods. */ private final double[] _fixingPeriodStartTimes; /** * The end times of the fixing periods. */ private final double[] _fixingPeriodEndTimes; /** * The accrual factors (or year fraction) associated with the fixing periods in the Index day count convention. */ private final double[] _fixingPeriodAccrualFactors; /** * The notional with the interest already fixed accrued, i.e. \prod_{i=1}^j (1+\delta_i r_i) where j is the number of fixed sub-periods. */ private final double _notionalAccrued; /** * The spread paid above the Ibor rate. */ private final double _spread; /** * Constructor. * @param currency The payment currency. * @param paymentTime Time (in years) up to the payment. * @param paymentAccrualFactor The year fraction (or accrual factor) for the coupon payment. * @param notional The coupon notional. * @param notionalAccrued The notional with the interest already fixed accrued. * @param index The Ibor-like index on which the coupon fixes. The index currency should be the same as the coupon currency. * @param paymentAccrualFactors The accrual factors (or year fraction) associated to the sub-periods not yet fixed. * @param fixingTimes The start times of the fixing periods. * @param fixingPeriodStartTimes The start times of the fixing periods. * @param fixingPeriodEndTimes The end times of the fixing periods. * @param fixingPeriodAccrualFactors The accrual factors (or year fraction) associated with the fixing periods in the Index day count convention. * @param spread The spread paid above the Ibor rate. */ public CouponIborCompoundingSpread(final Currency currency, final double paymentTime, final double paymentAccrualFactor, final double notional, final double notionalAccrued, final IborIndex index, final double[] paymentAccrualFactors, final double[] fixingTimes, final double[] fixingPeriodStartTimes, final double[] fixingPeriodEndTimes, final double[] fixingPeriodAccrualFactors, final double spread) { super(currency, paymentTime, paymentAccrualFactor, notional); ArgumentChecker.isTrue(fixingTimes.length == fixingPeriodStartTimes.length, "Fixing times and fixing period should have same length"); ArgumentChecker.isTrue(fixingTimes.length == fixingPeriodEndTimes.length, "Fixing times and fixing period should have same length"); ArgumentChecker.isTrue(fixingTimes.length == fixingPeriodAccrualFactors.length, "Fixing times and fixing period should have same length"); ArgumentChecker.isTrue(fixingTimes.length == paymentAccrualFactors.length, "Fixing times and fixing period should have same length"); ArgumentChecker.notNull(index, "Ibor index"); _notionalAccrued = notionalAccrued; _index = index; _paymentAccrualFactors = paymentAccrualFactors; _fixingTimes = fixingTimes; _fixingPeriodStartTimes = fixingPeriodStartTimes; _fixingPeriodEndTimes = fixingPeriodEndTimes; _fixingPeriodAccrualFactors = fixingPeriodAccrualFactors; _spread = spread; } /** * Returns the The notional with the interest already fixed accrued. * @return The notional accrued. */ public double getNotionalAccrued() { return _notionalAccrued; } /** * Returns the Ibor index underlying the coupon. * @return The index. */ public IborIndex getIndex() { return _index; } /** * Returns the payment accrual factors for each sub-period. * @return The factors. */ public double[] getPaymentAccrualFactors() { return _paymentAccrualFactors; } /** * Returns the fixing times for the different remaining periods. * @return The times. */ public double[] getFixingTimes() { return _fixingTimes; } /** * Gets the fixing period start times (in years). * @return The times. */ public double[] getFixingPeriodStartTimes() { return _fixingPeriodStartTimes; } /** * Gets the fixing period end times (in years). * @return The times. */ public double[] getFixingPeriodEndTimes() { return _fixingPeriodEndTimes; } /** * Returns the fixing period accrual factors for each sub-period. * @return The factors. */ public double[] getFixingPeriodAccrualFactors() { return _fixingPeriodAccrualFactors; } /** * Returns the spread. * @return the spread */ public double getSpread() { return _spread; } @Override public Coupon withNotional(final double notional) { return new CouponIborCompoundingSpread(getCurrency(), getPaymentTime(), getPaymentYearFraction(), notional, _notionalAccrued, _index, _paymentAccrualFactors, _fixingTimes, _fixingPeriodStartTimes, _fixingPeriodEndTimes, _fixingPeriodAccrualFactors, _spread); } @Override public <S, T> T accept(final InstrumentDerivativeVisitor<S, T> visitor, final S data) { return visitor.visitCouponIborCompoundingSpread(this, data); } @Override public <T> T accept(final InstrumentDerivativeVisitor<?, T> visitor) { return visitor.visitCouponIborCompoundingSpread(this); } @Override public int hashCode() { final int prime = 31; int result = super.hashCode(); result = prime * result + Arrays.hashCode(_fixingPeriodAccrualFactors); result = prime * result + Arrays.hashCode(_fixingPeriodEndTimes); result = prime * result + Arrays.hashCode(_fixingPeriodStartTimes); result = prime * result + Arrays.hashCode(_fixingTimes); result = prime * result + _index.hashCode(); long temp; temp = Double.doubleToLongBits(_notionalAccrued); result = prime * result + (int) (temp ^ (temp >>> 32)); result = prime * result + Arrays.hashCode(_paymentAccrualFactors); temp = Double.doubleToLongBits(_spread); result = prime * result + (int) (temp ^ (temp >>> 32)); return result; } @Override public boolean equals(final Object obj) { if (this == obj) { return true; } if (!super.equals(obj)) { return false; } if (getClass() != obj.getClass()) { return false; } final CouponIborCompoundingSpread other = (CouponIborCompoundingSpread) obj; if (!Arrays.equals(_fixingPeriodAccrualFactors, other._fixingPeriodAccrualFactors)) { return false; } if (!Arrays.equals(_fixingPeriodEndTimes, other._fixingPeriodEndTimes)) { return false; } if (!Arrays.equals(_fixingPeriodStartTimes, other._fixingPeriodStartTimes)) { return false; } if (!Arrays.equals(_fixingTimes, other._fixingTimes)) { return false; } if (!ObjectUtils.equals(_index, other._index)) { return false; } if (Double.doubleToLongBits(_notionalAccrued) != Double.doubleToLongBits(other._notionalAccrued)) { return false; } if (!Arrays.equals(_paymentAccrualFactors, other._paymentAccrualFactors)) { return false; } if (Double.doubleToLongBits(_spread) != Double.doubleToLongBits(other._spread)) { return false; } return true; } }