@Test
/** Tests the present value long/short parity. */
public void presentValueLongShort() {
final ForexOptionDigitalDefinition forexOptionShortDefinition =
new ForexOptionDigitalDefinition(FOREX_DEFINITION, OPTION_EXP_DATE, IS_CALL, !IS_LONG);
final InstrumentDerivative forexOptionShort =
forexOptionShortDefinition.toDerivative(REFERENCE_DATE, CURVES_NAME);
final MultipleCurrencyAmount pvShort =
METHOD_DIGITAL_SPREAD.presentValue(forexOptionShort, SMILE_BUNDLE);
final MultipleCurrencyAmount pvLong =
METHOD_DIGITAL_SPREAD.presentValue(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: present value long/short parity",
pvLong.getAmount(USD),
-pvShort.getAmount(USD),
1E-2);
final MultipleCurrencyAmount ceShort =
METHOD_DIGITAL_SPREAD.currencyExposure(forexOptionShort, SMILE_BUNDLE);
final MultipleCurrencyAmount ceLong =
METHOD_DIGITAL_SPREAD.currencyExposure(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: currency exposure long/short parity",
ceLong.getAmount(USD),
-ceShort.getAmount(USD),
1E-2);
assertEquals(
"Forex Digital option: currency exposure long/short parity",
ceLong.getAmount(EUR),
-ceShort.getAmount(EUR),
1E-2);
}
@Test
/** Tests put call parity. */
public void presentValuePutCallParity() {
final double strike = 1.45;
final boolean isCall = true;
final boolean isLong = true;
final double notional = 100000000;
final ZonedDateTime payDate =
ScheduleCalculator.getAdjustedDate(
REFERENCE_DATE, Period.ofMonths(9), BUSINESS_DAY, CALENDAR);
final ZonedDateTime expDate =
ScheduleCalculator.getAdjustedDate(payDate, -SETTLEMENT_DAYS, CALENDAR);
final ForexDefinition forexUnderlyingDefinition =
new ForexDefinition(EUR, USD, payDate, notional, strike);
final ForexOptionDigitalDefinition callDefinition =
new ForexOptionDigitalDefinition(forexUnderlyingDefinition, expDate, isCall, isLong);
final ForexOptionDigitalDefinition putDefinition =
new ForexOptionDigitalDefinition(forexUnderlyingDefinition, expDate, !isCall, isLong);
final ForexOptionDigital call = callDefinition.toDerivative(REFERENCE_DATE, CURVES_NAME);
final ForexOptionDigital put = putDefinition.toDerivative(REFERENCE_DATE, CURVES_NAME);
final MultipleCurrencyAmount pvCall = METHOD_DIGITAL_SPREAD.presentValue(call, SMILE_BUNDLE);
final MultipleCurrencyAmount pvPut = METHOD_DIGITAL_SPREAD.presentValue(put, SMILE_BUNDLE);
final Double pvCash = PVC.visit(put.getUnderlyingForex().getPaymentCurrency2(), CURVES);
assertEquals(
"Forex Digital option: call spread method - present value",
pvCall.getAmount(USD) + pvPut.getAmount(USD),
Math.abs(pvCash),
TOLERANCE_PRICE_FLAT);
}
@Test
/** Tests the put/call parity currency exposure. */
public void currencyExposurePutCallParity() {
final double strike = 1.45;
final boolean isCall = true;
final boolean isLong = true;
final double notional = 100000000;
final ZonedDateTime payDate =
ScheduleCalculator.getAdjustedDate(
REFERENCE_DATE, Period.ofMonths(9), BUSINESS_DAY, CALENDAR);
final ZonedDateTime expDate =
ScheduleCalculator.getAdjustedDate(payDate, -SETTLEMENT_DAYS, CALENDAR);
final ForexDefinition forexUnderlyingDefinition =
new ForexDefinition(EUR, USD, payDate, notional, strike);
final ForexOptionDigitalDefinition forexOptionDefinitionCall =
new ForexOptionDigitalDefinition(forexUnderlyingDefinition, expDate, isCall, isLong);
final ForexOptionDigitalDefinition forexOptionDefinitionPut =
new ForexOptionDigitalDefinition(forexUnderlyingDefinition, expDate, !isCall, isLong);
final ForexOptionDigital forexOptionCall =
forexOptionDefinitionCall.toDerivative(REFERENCE_DATE, CURVES_NAME);
final ForexOptionDigital forexOptionPut =
forexOptionDefinitionPut.toDerivative(REFERENCE_DATE, CURVES_NAME);
final MultipleCurrencyAmount currencyExposureCall =
METHOD_DIGITAL_SPREAD.currencyExposure(forexOptionCall, SMILE_BUNDLE);
final MultipleCurrencyAmount currencyExposurePut =
METHOD_DIGITAL_SPREAD.currencyExposure(forexOptionPut, SMILE_BUNDLE);
final Double pvCash =
PVC.visit(forexOptionPut.getUnderlyingForex().getPaymentCurrency2(), CURVES);
assertEquals(
"Forex Digital option: currency exposure put/call parity foreign",
0,
currencyExposureCall.getAmount(EUR) + currencyExposurePut.getAmount(EUR),
TOLERANCE_PRICE);
assertEquals(
"Forex Digital option: currency exposure put/call parity domestic",
Math.abs(pvCash),
currencyExposureCall.getAmount(USD) + currencyExposurePut.getAmount(USD),
TOLERANCE_PRICE);
}
/**
* Tests related to the pricing method for digital Forex option transactions with Black function and
* a volatility provider.
*/
public class ForexOptionDigitalCallSpreadMethodTest {
// General
private static final Calendar CALENDAR = new MondayToFridayCalendar("A");
private static final BusinessDayConvention BUSINESS_DAY =
BusinessDayConventionFactory.INSTANCE.getBusinessDayConvention("Modified Following");
private static final int SETTLEMENT_DAYS = 2;
// Smile data
private static final Currency EUR = Currency.EUR;
private static final Currency USD = Currency.USD;
private static final ZonedDateTime REFERENCE_DATE = DateUtils.getUTCDate(2011, 6, 13);
private static final FXMatrix FX_MATRIX = TestsDataSetsForex.fxMatrix();
private static final double SPOT = FX_MATRIX.getFxRate(EUR, USD);
private static final SmileDeltaTermStructureParameter SMILE_TERM =
TestsDataSetsForex.smile(REFERENCE_DATE);
private static final SmileDeltaTermStructureParameter SMILE_TERM_FLAT =
TestsDataSetsForex.smileFlat(REFERENCE_DATE);
// Methods and curves
private static final YieldCurveBundle CURVES = TestsDataSetsForex.createCurvesForex();
private static final String[] CURVES_NAME = TestsDataSetsForex.curveNames();
private static final Map<String, Currency> CURVE_CURRENCY = TestsDataSetsForex.curveCurrency();
private static final SmileDeltaTermStructureDataBundle SMILE_BUNDLE =
new SmileDeltaTermStructureDataBundle(
FX_MATRIX, CURVE_CURRENCY, CURVES, SMILE_TERM, Pair.of(EUR, USD));
private static final SmileDeltaTermStructureDataBundle SMILE_BUNDLE_FLAT =
new SmileDeltaTermStructureDataBundle(
FX_MATRIX, CURVE_CURRENCY, CURVES, SMILE_TERM_FLAT, Pair.of(EUR, USD));
private static final ForexOptionVanillaBlackMethod METHOD_VANILLA_BLACK =
ForexOptionVanillaBlackMethod.getInstance();
private static final ForexOptionDigitalBlackMethod METHOD_DIGITAL_BLACK =
ForexOptionDigitalBlackMethod.getInstance();
private static final double STANDARD_SPREAD = 0.0001;
private static final ForexOptionDigitalCallSpreadBlackMethod METHOD_DIGITAL_SPREAD =
new ForexOptionDigitalCallSpreadBlackMethod(STANDARD_SPREAD);
private static final PresentValueCalculator PVC = PresentValueCalculator.getInstance();
// option
private static final double STRIKE = 1.45;
private static final boolean IS_CALL = true;
private static final boolean IS_LONG = true;
private static final double NOTIONAL = 100000000;
private static final ZonedDateTime OPTION_PAY_DATE =
ScheduleCalculator.getAdjustedDate(
REFERENCE_DATE, Period.ofMonths(9), BUSINESS_DAY, CALENDAR);
private static final ZonedDateTime OPTION_EXP_DATE =
ScheduleCalculator.getAdjustedDate(OPTION_PAY_DATE, -SETTLEMENT_DAYS, CALENDAR);
private static final ForexDefinition FOREX_DEFINITION =
new ForexDefinition(EUR, USD, OPTION_PAY_DATE, NOTIONAL, STRIKE);
private static final Forex FOREX = FOREX_DEFINITION.toDerivative(REFERENCE_DATE, CURVES_NAME);
private static final ForexOptionDigitalDefinition FOREX_OPTION_CALL_DEFINITION =
new ForexOptionDigitalDefinition(FOREX_DEFINITION, OPTION_EXP_DATE, IS_CALL, IS_LONG);
private static final ForexOptionDigital FOREX_CALL_OPTION =
FOREX_OPTION_CALL_DEFINITION.toDerivative(REFERENCE_DATE, CURVES_NAME);
private static final double TOLERANCE_PRICE = 1.0E-2;
private static final double TOLERANCE_PRICE_FLAT =
1.0E+1; // The spread size will create a discrepancy.
private static final double TOLERANCE_CE_FLAT =
1.0E+2; // The spread size will create a discrepancy.
private static final double TOLERANCE_DELTA = 1.0E+2; // 0.01 currency unit for 1 bp
@Test
/** Tests the present value in a flat smile case. */
public void presentValueFlat() {
MultipleCurrencyAmount pvSpread =
METHOD_DIGITAL_SPREAD.presentValue(FOREX_CALL_OPTION, SMILE_BUNDLE_FLAT);
MultipleCurrencyAmount pvBlack =
METHOD_DIGITAL_BLACK.presentValue(FOREX_CALL_OPTION, SMILE_BUNDLE_FLAT);
assertEquals(
"Forex Digital option: call spread method - present value",
pvBlack.getAmount(USD),
pvSpread.getAmount(USD),
TOLERANCE_PRICE_FLAT);
}
@Test
/** Tests the present value with an explicit computation. */
public void presentValue() {
double strikeM = STRIKE * (1 - STANDARD_SPREAD);
double strikeP = STRIKE * (1 + STANDARD_SPREAD);
Forex forexM =
new Forex(
FOREX.getPaymentCurrency1().withAmount(1.0),
FOREX.getPaymentCurrency2().withAmount(-strikeM));
Forex forexP =
new Forex(
FOREX.getPaymentCurrency1().withAmount(1.0),
FOREX.getPaymentCurrency2().withAmount(-strikeP));
ForexOptionVanilla vanillaM =
new ForexOptionVanilla(forexM, FOREX_CALL_OPTION.getExpirationTime(), IS_CALL, IS_LONG);
ForexOptionVanilla vanillaP =
new ForexOptionVanilla(forexP, FOREX_CALL_OPTION.getExpirationTime(), IS_CALL, IS_LONG);
MultipleCurrencyAmount pvP = METHOD_VANILLA_BLACK.presentValue(vanillaP, SMILE_BUNDLE);
MultipleCurrencyAmount pvM = METHOD_VANILLA_BLACK.presentValue(vanillaM, SMILE_BUNDLE);
MultipleCurrencyAmount pvExpected =
pvM.plus(pvP.multipliedBy(-1.0))
.multipliedBy(
1.0 / (strikeP - strikeM) * Math.abs(FOREX.getPaymentCurrency2().getAmount()));
MultipleCurrencyAmount pvComputed =
METHOD_DIGITAL_SPREAD.presentValue(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: call spread method - present value",
pvExpected.getAmount(USD),
pvComputed.getAmount(USD),
TOLERANCE_PRICE);
}
@Test
/** Tests put call parity. */
public void presentValuePutCallParity() {
final double strike = 1.45;
final boolean isCall = true;
final boolean isLong = true;
final double notional = 100000000;
final ZonedDateTime payDate =
ScheduleCalculator.getAdjustedDate(
REFERENCE_DATE, Period.ofMonths(9), BUSINESS_DAY, CALENDAR);
final ZonedDateTime expDate =
ScheduleCalculator.getAdjustedDate(payDate, -SETTLEMENT_DAYS, CALENDAR);
final ForexDefinition forexUnderlyingDefinition =
new ForexDefinition(EUR, USD, payDate, notional, strike);
final ForexOptionDigitalDefinition callDefinition =
new ForexOptionDigitalDefinition(forexUnderlyingDefinition, expDate, isCall, isLong);
final ForexOptionDigitalDefinition putDefinition =
new ForexOptionDigitalDefinition(forexUnderlyingDefinition, expDate, !isCall, isLong);
final ForexOptionDigital call = callDefinition.toDerivative(REFERENCE_DATE, CURVES_NAME);
final ForexOptionDigital put = putDefinition.toDerivative(REFERENCE_DATE, CURVES_NAME);
final MultipleCurrencyAmount pvCall = METHOD_DIGITAL_SPREAD.presentValue(call, SMILE_BUNDLE);
final MultipleCurrencyAmount pvPut = METHOD_DIGITAL_SPREAD.presentValue(put, SMILE_BUNDLE);
final Double pvCash = PVC.visit(put.getUnderlyingForex().getPaymentCurrency2(), CURVES);
assertEquals(
"Forex Digital option: call spread method - present value",
pvCall.getAmount(USD) + pvPut.getAmount(USD),
Math.abs(pvCash),
TOLERANCE_PRICE_FLAT);
}
@Test
/** Tests the present value long/short parity. */
public void presentValueLongShort() {
final ForexOptionDigitalDefinition forexOptionShortDefinition =
new ForexOptionDigitalDefinition(FOREX_DEFINITION, OPTION_EXP_DATE, IS_CALL, !IS_LONG);
final InstrumentDerivative forexOptionShort =
forexOptionShortDefinition.toDerivative(REFERENCE_DATE, CURVES_NAME);
final MultipleCurrencyAmount pvShort =
METHOD_DIGITAL_SPREAD.presentValue(forexOptionShort, SMILE_BUNDLE);
final MultipleCurrencyAmount pvLong =
METHOD_DIGITAL_SPREAD.presentValue(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: present value long/short parity",
pvLong.getAmount(USD),
-pvShort.getAmount(USD),
1E-2);
final MultipleCurrencyAmount ceShort =
METHOD_DIGITAL_SPREAD.currencyExposure(forexOptionShort, SMILE_BUNDLE);
final MultipleCurrencyAmount ceLong =
METHOD_DIGITAL_SPREAD.currencyExposure(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: currency exposure long/short parity",
ceLong.getAmount(USD),
-ceShort.getAmount(USD),
1E-2);
assertEquals(
"Forex Digital option: currency exposure long/short parity",
ceLong.getAmount(EUR),
-ceShort.getAmount(EUR),
1E-2);
}
@Test
/** Tests the currency exposure in a flat smile case. */
public void currencyExposureFlat() {
MultipleCurrencyAmount ceSpread =
METHOD_DIGITAL_SPREAD.currencyExposure(FOREX_CALL_OPTION, SMILE_BUNDLE_FLAT);
MultipleCurrencyAmount ceBlack =
METHOD_DIGITAL_BLACK.currencyExposure(FOREX_CALL_OPTION, SMILE_BUNDLE_FLAT);
assertEquals(
"Forex Digital option: call spread method - currency exposure",
ceBlack.getAmount(USD),
ceSpread.getAmount(USD),
TOLERANCE_CE_FLAT);
assertEquals(
"Forex Digital option: call spread method - currency exposure",
ceBlack.getAmount(EUR),
ceSpread.getAmount(EUR),
TOLERANCE_CE_FLAT);
}
@Test
/** Tests the currency exposure with an explicit computation. */
public void currencyExposure() {
double spread = 0.0001; // Relative spread.
double strikeM = STRIKE * (1 - spread);
double strikeP = STRIKE * (1 + spread);
Forex forexM =
new Forex(
FOREX.getPaymentCurrency1().withAmount(1.0),
FOREX.getPaymentCurrency2().withAmount(-strikeM));
Forex forexP =
new Forex(
FOREX.getPaymentCurrency1().withAmount(1.0),
FOREX.getPaymentCurrency2().withAmount(-strikeP));
ForexOptionVanilla vanillaM =
new ForexOptionVanilla(forexM, FOREX_CALL_OPTION.getExpirationTime(), IS_CALL, IS_LONG);
ForexOptionVanilla vanillaP =
new ForexOptionVanilla(forexP, FOREX_CALL_OPTION.getExpirationTime(), IS_CALL, IS_LONG);
MultipleCurrencyAmount ceP = METHOD_VANILLA_BLACK.currencyExposure(vanillaP, SMILE_BUNDLE);
MultipleCurrencyAmount ceM = METHOD_VANILLA_BLACK.currencyExposure(vanillaM, SMILE_BUNDLE);
MultipleCurrencyAmount ceExpected =
ceM.plus(ceP.multipliedBy(-1.0))
.multipliedBy(
1.0 / (strikeP - strikeM) * Math.abs(FOREX.getPaymentCurrency2().getAmount()));
MultipleCurrencyAmount ceComputed =
METHOD_DIGITAL_SPREAD.currencyExposure(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: call spread method - currency exposure",
ceExpected.getAmount(USD),
ceComputed.getAmount(USD),
TOLERANCE_PRICE);
assertEquals(
"Forex Digital option: call spread method - currency exposure",
ceExpected.getAmount(EUR),
ceComputed.getAmount(EUR),
TOLERANCE_PRICE);
}
@Test
/** Tests the currency exposure against the present value. */
public void currencyExposureVsPresentValue() {
MultipleCurrencyAmount pv = METHOD_DIGITAL_SPREAD.presentValue(FOREX_CALL_OPTION, SMILE_BUNDLE);
MultipleCurrencyAmount ce =
METHOD_DIGITAL_SPREAD.currencyExposure(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: call spread method - currency exposure vs present value",
ce.getAmount(USD) + ce.getAmount(EUR) * SPOT,
pv.getAmount(USD),
TOLERANCE_PRICE);
}
@Test
/** Tests the put/call parity currency exposure. */
public void currencyExposurePutCallParity() {
final double strike = 1.45;
final boolean isCall = true;
final boolean isLong = true;
final double notional = 100000000;
final ZonedDateTime payDate =
ScheduleCalculator.getAdjustedDate(
REFERENCE_DATE, Period.ofMonths(9), BUSINESS_DAY, CALENDAR);
final ZonedDateTime expDate =
ScheduleCalculator.getAdjustedDate(payDate, -SETTLEMENT_DAYS, CALENDAR);
final ForexDefinition forexUnderlyingDefinition =
new ForexDefinition(EUR, USD, payDate, notional, strike);
final ForexOptionDigitalDefinition forexOptionDefinitionCall =
new ForexOptionDigitalDefinition(forexUnderlyingDefinition, expDate, isCall, isLong);
final ForexOptionDigitalDefinition forexOptionDefinitionPut =
new ForexOptionDigitalDefinition(forexUnderlyingDefinition, expDate, !isCall, isLong);
final ForexOptionDigital forexOptionCall =
forexOptionDefinitionCall.toDerivative(REFERENCE_DATE, CURVES_NAME);
final ForexOptionDigital forexOptionPut =
forexOptionDefinitionPut.toDerivative(REFERENCE_DATE, CURVES_NAME);
final MultipleCurrencyAmount currencyExposureCall =
METHOD_DIGITAL_SPREAD.currencyExposure(forexOptionCall, SMILE_BUNDLE);
final MultipleCurrencyAmount currencyExposurePut =
METHOD_DIGITAL_SPREAD.currencyExposure(forexOptionPut, SMILE_BUNDLE);
final Double pvCash =
PVC.visit(forexOptionPut.getUnderlyingForex().getPaymentCurrency2(), CURVES);
assertEquals(
"Forex Digital option: currency exposure put/call parity foreign",
0,
currencyExposureCall.getAmount(EUR) + currencyExposurePut.getAmount(EUR),
TOLERANCE_PRICE);
assertEquals(
"Forex Digital option: currency exposure put/call parity domestic",
Math.abs(pvCash),
currencyExposureCall.getAmount(USD) + currencyExposurePut.getAmount(USD),
TOLERANCE_PRICE);
}
@Test
/** Tests the present value curve sensitivity. */
public void presentValueCurveSensitivity() {
double spread = 0.0001; // Relative spread.
double strikeM = STRIKE * (1 - spread);
double strikeP = STRIKE * (1 + spread);
Forex forexM =
new Forex(
FOREX.getPaymentCurrency1().withAmount(1.0),
FOREX.getPaymentCurrency2().withAmount(-strikeM));
Forex forexP =
new Forex(
FOREX.getPaymentCurrency1().withAmount(1.0),
FOREX.getPaymentCurrency2().withAmount(-strikeP));
ForexOptionVanilla vanillaM =
new ForexOptionVanilla(forexM, FOREX_CALL_OPTION.getExpirationTime(), IS_CALL, IS_LONG);
ForexOptionVanilla vanillaP =
new ForexOptionVanilla(forexP, FOREX_CALL_OPTION.getExpirationTime(), IS_CALL, IS_LONG);
MultipleCurrencyInterestRateCurveSensitivity pvcsP =
METHOD_VANILLA_BLACK.presentValueCurveSensitivity(vanillaP, SMILE_BUNDLE);
MultipleCurrencyInterestRateCurveSensitivity pvcsM =
METHOD_VANILLA_BLACK.presentValueCurveSensitivity(vanillaM, SMILE_BUNDLE);
MultipleCurrencyInterestRateCurveSensitivity pvcsExpected =
pvcsM
.plus(pvcsP.multipliedBy(-1.0))
.multipliedBy(
1.0 / (strikeP - strikeM) * Math.abs(FOREX.getPaymentCurrency2().getAmount()));
MultipleCurrencyInterestRateCurveSensitivity pvcsComputed =
METHOD_DIGITAL_SPREAD.presentValueCurveSensitivity(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertTrue(
"Forex Digital option: call spread method - present value",
MultipleCurrencyInterestRateCurveSensitivity.compare(
pvcsExpected, pvcsComputed, TOLERANCE_DELTA));
}
@Test
/** Tests the present value curve sensitivity. */
public void presentValueVolatilitySensitivity() {
double strikeM = STRIKE * (1 - STANDARD_SPREAD);
double strikeP = STRIKE * (1 + STANDARD_SPREAD);
Forex forexM =
new Forex(
FOREX.getPaymentCurrency1().withAmount(1.0),
FOREX.getPaymentCurrency2().withAmount(-strikeM));
Forex forexP =
new Forex(
FOREX.getPaymentCurrency1().withAmount(1.0),
FOREX.getPaymentCurrency2().withAmount(-strikeP));
ForexOptionVanilla vanillaM =
new ForexOptionVanilla(forexM, FOREX_CALL_OPTION.getExpirationTime(), IS_CALL, IS_LONG);
ForexOptionVanilla vanillaP =
new ForexOptionVanilla(forexP, FOREX_CALL_OPTION.getExpirationTime(), IS_CALL, IS_LONG);
PresentValueForexBlackVolatilitySensitivity pvbvP =
METHOD_VANILLA_BLACK.presentValueVolatilitySensitivity(vanillaP, SMILE_BUNDLE);
PresentValueForexBlackVolatilitySensitivity pvbvM =
METHOD_VANILLA_BLACK.presentValueVolatilitySensitivity(vanillaM, SMILE_BUNDLE);
PresentValueForexBlackVolatilitySensitivity pvbvExpected =
pvbvM
.plus(pvbvP.multipliedBy(-1.0))
.multipliedBy(
1.0 / (strikeP - strikeM) * Math.abs(FOREX.getPaymentCurrency2().getAmount()));
PresentValueForexBlackVolatilitySensitivity pvbvComputed =
METHOD_DIGITAL_SPREAD.presentValueVolatilitySensitivity(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: call spread method - present value volatility sensitivity",
pvbvComputed.getVega().getMap().size(),
2);
assertTrue(
"Forex Digital option: call spread method - present value volatility sensitivity",
PresentValueForexBlackVolatilitySensitivity.compare(
pvbvExpected, pvbvComputed, TOLERANCE_DELTA));
}
@Test
/** Tests the present value. Spread change. */
public void presentValueSpreadChange() {
double spread1 = 0.0001;
double spread2 = 0.0002;
ForexOptionDigitalCallSpreadBlackMethod methodCallSpreadBlack1 =
new ForexOptionDigitalCallSpreadBlackMethod(spread1);
ForexOptionDigitalCallSpreadBlackMethod methodCallSpreadBlack2 =
new ForexOptionDigitalCallSpreadBlackMethod(spread2);
MultipleCurrencyAmount pv1 =
methodCallSpreadBlack1.presentValue(FOREX_CALL_OPTION, SMILE_BUNDLE);
MultipleCurrencyAmount pv2 =
methodCallSpreadBlack2.presentValue(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: call spread method - present value",
pv1.getAmount(USD),
pv2.getAmount(USD),
10.0);
// MultipleCurrencyAmount pvBlack = METHOD_DIGITAL_BLACK.presentValue(FOREX_CALL_OPTION,
// SMILE_BUNDLE);
// assertEquals("Forex Digital option: call spread method - present value",
// pvBlack.getAmount(USD), pv2.getAmount(USD), 10.0); // Should fail
}
@Test
/** Tests the present value. Method vs Calculator. */
public void presentValueMethodVCalculator() {
MultipleCurrencyAmount pv1 =
METHOD_DIGITAL_SPREAD.presentValue(FOREX_CALL_OPTION, SMILE_BUNDLE);
PresentValueCallSpreadBlackForexCalculator calculator =
new PresentValueCallSpreadBlackForexCalculator(STANDARD_SPREAD);
MultipleCurrencyAmount pvCalculator = calculator.visit(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: call spread method - present value",
pv1.getAmount(USD),
pvCalculator.getAmount(USD),
TOLERANCE_PRICE);
}
@Test
/** Tests the currency exposure. Method vs Calculator. */
public void currencyExposureMethodVCalculator() {
MultipleCurrencyAmount ceMethod =
METHOD_DIGITAL_SPREAD.currencyExposure(FOREX_CALL_OPTION, SMILE_BUNDLE);
CurrencyExposureCallSpreadBlackForexCalculator calculator =
new CurrencyExposureCallSpreadBlackForexCalculator(STANDARD_SPREAD);
MultipleCurrencyAmount ceCalculator = calculator.visit(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertEquals(
"Forex Digital option: call spread method - currency exposure",
ceMethod.getAmount(USD),
ceCalculator.getAmount(USD),
TOLERANCE_PRICE);
assertEquals(
"Forex Digital option: call spread method - currency exposure",
ceMethod.getAmount(EUR),
ceCalculator.getAmount(EUR),
TOLERANCE_PRICE);
}
@Test
/** Tests the present value curve sensitivity. Method vs Calculator. */
public void presentValueCurveSensitivityMethodVCalculator() {
MultipleCurrencyInterestRateCurveSensitivity pvcsMethod =
METHOD_DIGITAL_SPREAD.presentValueCurveSensitivity(FOREX_CALL_OPTION, SMILE_BUNDLE);
PresentValueCurveSensitivityCallSpreadBlackForexCalculator calculator =
new PresentValueCurveSensitivityCallSpreadBlackForexCalculator(STANDARD_SPREAD);
MultipleCurrencyInterestRateCurveSensitivity pvcsCalculator =
calculator.visit(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertTrue(
"Forex Digital option: call spread method - present value",
MultipleCurrencyInterestRateCurveSensitivity.compare(
pvcsMethod, pvcsCalculator, TOLERANCE_DELTA));
}
@Test
/** Tests the present value volatility sensitivity. Method vs Calculator. */
public void presentValueVolatilitySensitivityMethodVCalculator() {
PresentValueForexBlackVolatilitySensitivity pvbvMethod =
METHOD_DIGITAL_SPREAD.presentValueVolatilitySensitivity(FOREX_CALL_OPTION, SMILE_BUNDLE);
PresentValueVolatilitySensitivityCallSpreadBlackForexCalculator calculator =
new PresentValueVolatilitySensitivityCallSpreadBlackForexCalculator(STANDARD_SPREAD);
PresentValueForexBlackVolatilitySensitivity pvbvCalculator =
calculator.visit(FOREX_CALL_OPTION, SMILE_BUNDLE);
assertTrue(
"Forex Digital option: call spread method - present value volatility sensitivity",
PresentValueForexBlackVolatilitySensitivity.compare(
pvbvMethod, pvbvCalculator, TOLERANCE_DELTA));
}
}
