コード例 #1
0
 @Test(enabled = false)
 /**
  * Test the present value vs a external system. "enabled = false" for the standard testing: the
  * external system is using a TimeCalculator with ACT/365.
  */
 public void presentValueExternal() {
   G2ppPiecewiseConstantParameters parametersCst = G2ppTestsDataSet.createG2ppCstParameters();
   final YieldAndDiscountCurve curve5 = new YieldCurve(ConstantDoublesCurve.from(0.05));
   final YieldCurveBundle curves = new YieldCurveBundle();
   curves.setCurve(FUNDING_CURVE_NAME, curve5);
   curves.setCurve(FORWARD_CURVE_NAME, curve5);
   G2ppPiecewiseConstantDataBundle bundleCst =
       new G2ppPiecewiseConstantDataBundle(parametersCst, curves);
   CurrencyAmount pv = METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_PAYER_LONG, bundleCst);
   double pvExternal = 6885626.28245924; // ! TimeCalculator with ACT/365
   assertEquals(
       "Swaption physical - G2++ - present value - external system",
       pvExternal,
       pv.getAmount(),
       1E-2);
 }
コード例 #2
0
/** Tests related to the pricing of physical delivery swaption in G2++ model. */
public class SwaptionPhysicalFixedIborG2ppMethodTest {
  // Swaption 5Yx5Y
  private static final Currency CUR = Currency.USD;
  private static final Calendar CALENDAR = new MondayToFridayCalendar("A");
  private static final BusinessDayConvention BUSINESS_DAY =
      BusinessDayConventionFactory.INSTANCE.getBusinessDayConvention("Modified Following");
  private static final boolean IS_EOM = true;
  private static final int SETTLEMENT_DAYS = 2;
  private static final Period IBOR_TENOR = Period.ofMonths(3);
  private static final DayCount IBOR_DAY_COUNT = DayCountFactory.INSTANCE.getDayCount("Actual/360");
  private static final IborIndex IBOR_INDEX =
      new IborIndex(
          CUR, IBOR_TENOR, SETTLEMENT_DAYS, CALENDAR, IBOR_DAY_COUNT, BUSINESS_DAY, IS_EOM);
  private static final int SWAP_TENOR_YEAR = 5;
  private static final Period SWAP_TENOR = Period.ofYears(SWAP_TENOR_YEAR);
  private static final Period FIXED_PAYMENT_PERIOD = Period.ofMonths(6);
  private static final DayCount FIXED_DAY_COUNT = DayCountFactory.INSTANCE.getDayCount("30/360");
  private static final CMSIndex CMS_INDEX =
      new CMSIndex(FIXED_PAYMENT_PERIOD, FIXED_DAY_COUNT, IBOR_INDEX, SWAP_TENOR);
  private static final ZonedDateTime EXPIRY_DATE = DateUtils.getUTCDate(2016, 7, 7);
  private static final ZonedDateTime SETTLEMENT_DATE =
      ScheduleCalculator.getAdjustedDate(EXPIRY_DATE, CALENDAR, SETTLEMENT_DAYS);
  private static final double NOTIONAL = 100000000; // 100m
  private static final double RATE = 0.0325;
  private static final boolean FIXED_IS_PAYER = true;
  private static final SwapFixedIborDefinition SWAP_PAYER_DEFINITION =
      SwapFixedIborDefinition.from(SETTLEMENT_DATE, CMS_INDEX, NOTIONAL, RATE, FIXED_IS_PAYER);
  private static final SwapFixedIborDefinition SWAP_RECEIVER_DEFINITION =
      SwapFixedIborDefinition.from(SETTLEMENT_DATE, CMS_INDEX, NOTIONAL, RATE, !FIXED_IS_PAYER);
  private static final boolean IS_LONG = true;
  private static final SwaptionPhysicalFixedIborDefinition SWAPTION_PAYER_LONG_DEFINITION =
      SwaptionPhysicalFixedIborDefinition.from(EXPIRY_DATE, SWAP_PAYER_DEFINITION, IS_LONG);
  private static final SwaptionPhysicalFixedIborDefinition SWAPTION_RECEIVER_LONG_DEFINITION =
      SwaptionPhysicalFixedIborDefinition.from(EXPIRY_DATE, SWAP_RECEIVER_DEFINITION, IS_LONG);
  private static final SwaptionPhysicalFixedIborDefinition SWAPTION_PAYER_SHORT_DEFINITION =
      SwaptionPhysicalFixedIborDefinition.from(EXPIRY_DATE, SWAP_PAYER_DEFINITION, !IS_LONG);
  private static final SwaptionPhysicalFixedIborDefinition SWAPTION_RECEIVER_SHORT_DEFINITION =
      SwaptionPhysicalFixedIborDefinition.from(EXPIRY_DATE, SWAP_RECEIVER_DEFINITION, !IS_LONG);
  // to derivatives
  private static final ZonedDateTime REFERENCE_DATE = DateUtils.getUTCDate(2011, 7, 7);
  private static final String FUNDING_CURVE_NAME = "Funding";
  private static final String FORWARD_CURVE_NAME = "Forward";
  private static final String[] CURVES_NAME = {FUNDING_CURVE_NAME, FORWARD_CURVE_NAME};
  private static final YieldCurveBundle CURVES = TestsDataSets.createCurves1();
  private static final FixedCouponSwap<Coupon> SWAP_RECEIVER =
      SWAP_RECEIVER_DEFINITION.toDerivative(REFERENCE_DATE, CURVES_NAME);
  private static final SwaptionPhysicalFixedIbor SWAPTION_PAYER_LONG =
      SWAPTION_PAYER_LONG_DEFINITION.toDerivative(REFERENCE_DATE, CURVES_NAME);
  private static final SwaptionPhysicalFixedIbor SWAPTION_RECEIVER_LONG =
      SWAPTION_RECEIVER_LONG_DEFINITION.toDerivative(REFERENCE_DATE, CURVES_NAME);
  private static final SwaptionPhysicalFixedIbor SWAPTION_PAYER_SHORT =
      SWAPTION_PAYER_SHORT_DEFINITION.toDerivative(REFERENCE_DATE, CURVES_NAME);
  private static final SwaptionPhysicalFixedIbor SWAPTION_RECEIVER_SHORT =
      SWAPTION_RECEIVER_SHORT_DEFINITION.toDerivative(REFERENCE_DATE, CURVES_NAME);
  // Calculator
  private static final SwaptionPhysicalFixedIborG2ppApproximationMethod METHOD_G2PP_APPROXIMATION =
      new SwaptionPhysicalFixedIborG2ppApproximationMethod();
  private static final SwaptionPhysicalFixedIborG2ppNumericalIntegrationMethod METHOD_G2PP_NI =
      new SwaptionPhysicalFixedIborG2ppNumericalIntegrationMethod();
  private static final G2ppPiecewiseConstantParameters PARAMETERS_G2PP =
      G2ppTestsDataSet.createG2ppParameters();
  private static final G2ppPiecewiseConstantDataBundle BUNDLE_G2PP =
      new G2ppPiecewiseConstantDataBundle(PARAMETERS_G2PP, CURVES);
  private static final PresentValueCalculator PVC = PresentValueCalculator.getInstance();

  @Test(enabled = false)
  /**
   * Test the present value vs a external system. "enabled = false" for the standard testing: the
   * external system is using a TimeCalculator with ACT/365.
   */
  public void presentValueExternal() {
    G2ppPiecewiseConstantParameters parametersCst = G2ppTestsDataSet.createG2ppCstParameters();
    final YieldAndDiscountCurve curve5 = new YieldCurve(ConstantDoublesCurve.from(0.05));
    final YieldCurveBundle curves = new YieldCurveBundle();
    curves.setCurve(FUNDING_CURVE_NAME, curve5);
    curves.setCurve(FORWARD_CURVE_NAME, curve5);
    G2ppPiecewiseConstantDataBundle bundleCst =
        new G2ppPiecewiseConstantDataBundle(parametersCst, curves);
    CurrencyAmount pv = METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_PAYER_LONG, bundleCst);
    double pvExternal = 6885626.28245924; // ! TimeCalculator with ACT/365
    assertEquals(
        "Swaption physical - G2++ - present value - external system",
        pvExternal,
        pv.getAmount(),
        1E-2);
  }

  @Test(enabled = true)
  /** Test the present value vs a hard-coded value. */
  public void presentValue() {
    CurrencyAmount pv = METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_PAYER_LONG, BUNDLE_G2PP);
    double pvExpected = 4893110.87;
    assertEquals(
        "Swaption physical - G2++ - present value - hard coded value",
        pvExpected,
        pv.getAmount(),
        1E-2);
  }

  @Test
  /** Tests long/short parity. */
  public void longShortParity() {
    CurrencyAmount pvPayerLong =
        METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_PAYER_LONG, BUNDLE_G2PP);
    CurrencyAmount pvPayerShort =
        METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_PAYER_SHORT, BUNDLE_G2PP);
    assertEquals(
        "Swaption physical - G2++ - present value - long/short parity",
        pvPayerLong.getAmount(),
        -pvPayerShort.getAmount(),
        1E-2);
    CurrencyAmount pvReceiverLong =
        METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_RECEIVER_LONG, BUNDLE_G2PP);
    CurrencyAmount pvReceiverShort =
        METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_RECEIVER_SHORT, BUNDLE_G2PP);
    assertEquals(
        "Swaption physical - G2++ - present value - long/short parity",
        pvReceiverLong.getAmount(),
        -pvReceiverShort.getAmount(),
        1E-2);
  }

  @Test
  /** Tests payer/receiver/swap parity. */
  public void payerReceiverParity() {
    CurrencyAmount pvReceiverLong =
        METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_RECEIVER_LONG, BUNDLE_G2PP);
    CurrencyAmount pvPayerShort =
        METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_PAYER_SHORT, BUNDLE_G2PP);
    double pvSwap = PVC.visit(SWAP_RECEIVER, CURVES);
    assertEquals(
        "Swaption physical - G2++ - present value - payer/receiver/swap parity",
        pvReceiverLong.getAmount() + pvPayerShort.getAmount(),
        pvSwap,
        1E-2);
  }

  @Test
  /** Test the present value by approximation vs by numerical integration. */
  public void approximationNumericalIntegration() {
    CurrencyAmount pvApproximation =
        METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_PAYER_LONG, BUNDLE_G2PP);
    CurrencyAmount pvNI = METHOD_G2PP_NI.presentValue(SWAPTION_PAYER_LONG, BUNDLE_G2PP);
    assertEquals(
        "Swaption physical - G2++ - present value - approximation vs Numerical integration",
        pvApproximation.getAmount(),
        pvNI.getAmount(),
        2.0E+3);
  }

  @Test(enabled = false)
  /** Tests of performance. "enabled = false" for the standard testing. */
  public void performance() {
    long startTime, endTime;
    final int nbTest = 100;
    CurrencyAmount pvPayerLongApproximation = CurrencyAmount.of(CUR, 0.0);
    CurrencyAmount pvPayerLongNI = CurrencyAmount.of(CUR, 0.0);
    startTime = System.currentTimeMillis();
    for (int looptest = 0; looptest < nbTest; looptest++) {
      pvPayerLongApproximation =
          METHOD_G2PP_APPROXIMATION.presentValue(SWAPTION_PAYER_LONG, BUNDLE_G2PP);
    }
    endTime = System.currentTimeMillis();
    System.out.println(
        nbTest + " pv swaption G2++ approximation method: " + (endTime - startTime) + " ms");
    // Performance note: G2++ price: 24-Aug-11: On Mac Pro 3.2 GHz Quad-Core Intel Xeon: 175 ms for
    // 10000 swaptions.
    startTime = System.currentTimeMillis();
    for (int looptest = 0; looptest < nbTest; looptest++) {
      pvPayerLongNI = METHOD_G2PP_NI.presentValue(SWAPTION_PAYER_LONG, BUNDLE_G2PP);
    }
    endTime = System.currentTimeMillis();
    System.out.println(
        nbTest
            + " pv swaption G2++ numerical integration method: "
            + (endTime - startTime)
            + " ms");
    // Performance note: G2++ price: 24-Aug-11: On Mac Pro 3.2 GHz Quad-Core Intel Xeon: 1075 ms for
    // 100 swaptions.

    System.out.println("G2++ approximation - present value: " + pvPayerLongApproximation);
    System.out.println("G2++ numerical integration - present value: " + pvPayerLongNI);
  }
}